GHK-Cu Capsules (2mg/capsule, 30 capsules)

Buy GHK-Cu Capsules: Clinical-Grade Copper Tripeptide for Lab Use

The tripeptide GHK-Cu has become a hot compound in regenerative research, attracting scientific attention for its unique molecular properties and cellular mechanisms. This natural copper peptide, composed of 3 amino acids complexed with copper ions, is amazing for lab studies of tissue repair, wound healing and cellular regeneration.

Research shows GHK-Cu works through multiple pathways, making it a must have for scientists studying anti inflammatory effects, collagen synthesis and angiogenesis. When you buy ghk cu capsules from a reputable supplier, you get a versatile research tool that has shown promise in many scientific studies.

Molecular Structure of GHK-Cu

The copper tripeptide GHK-Cu has a defined molecular composition that is the basis of its research applications. Understanding this structure is key to lab studies.

Property	Details
Amino Sequence	Glycine-Histidine-Lysine-Copper(II)
Molecular Formula	C18H29N7O6Cu
Molecular Weight	502.02 g/mol
PubChem CID	91844847
CAS #	49557-75-7

The 3 amino acids in this copper peptide create a specific binding site that has high affinity for copper ions. Research shows this molecular arrangement enables biological activities not seen in individual peptides or copper compounds alone. The glycine-histidine-lysine sequence is the foundation of the compound’s interaction with cellular systems in lab studies.

Scientific research has shown that the copper binding changes the properties of the peptide, making the complex more stable and bioactive than its individual components. This is why GHK-Cu is so valuable for researchers studying copper dependent cellular processes.

Mechanism of Action

GHK-Cu is a natural tripeptide with high affinity for copper ions, making it perfect for cellular mechanism studies. When you add the ghk cu peptide to your experimental systems, research shows it activates multiple regenerative pathways at the cellular level through various molecular interactions.

Lab studies show the peptide stimulates collagen and elastin production through fibroblast stimulation and provides antioxidant defense by neutralizing lipid peroxidation products. These 2 mechanisms make it interesting for researchers studying tissue repair and antioxidant actions.Advanced liposomal formulations use phospholipid delivery systems that increase bioavailability compared to regular preparations. These specialized delivery methods protect the peptide structure from stomach acid degradation, allowing for better absorption and utilization by target tissues in experimental models.

Research shows the compound stimulates growth factors for new blood vessels formation and supports gene expression for healthy aging processes. The peptide reduces inflammation through multiple pathways making it useful for scientists studying anti inflammatory mechanisms and immune cells responses.

Studies show GHK-Cu can influence human genes involved in cellular regeneration, with research showing effects on over 4,000 gene transcripts. This broad genetic influence gives researchers many opportunities to study how copper peptides affect fundamental cellular processes.

Research Studies

Clinical trials demonstrate the compound’s effectiveness through internal administration protocols. Scientific research confirms GHK-Cu’s ability to suppress pro-inflammatory cytokines like TNF-α and IL-6, its anti inflammatory profile in lab settings.

Research shows the peptide enhances wound healing and tissue repair through growth factor stimulation, with measurable results in barrier function and protection against environmental damage in controlled studies. This supports its use as a comprehensive research tool for skin health mechanisms beyond topical use.

Lab studies show GHK-Cu influences angiogenesis, promoting new blood vessels formation through VEGF and FGF-2 upregulation. This vascular activity makes it useful for researchers studying circulation and nutrient delivery in tissue models.

Hair growth research has shown promising results, with studies showing the copper tripeptide increases follicle size and prolongs growth phases. Scientists studying hair biology often combine GHK-Cu research with micro-needling or light therapy to study synergistic effects.

Research Application	Key Findings	Mechanism
Tissue Repair	Faster healing rates	Collagen synthesis stimulation
Anti-inflammatory	Reduced cytokine expression	NF-κB pathway modulation
Angiogenesis	Increased vessel formation	VEGF/FGF-2 upregulation
Antioxidant Defense	Reduced oxidative stress	Lipid peroxidation neutralization

Proteolytic enzymes studies have shown GHK-Cu is stable in various experimental conditions, making it suitable for long term research. The compound’s interaction with microcrystalline cellulose and other excipients is well documented, giving researchers formulation guidance for their studies.

Storage and Safety

Standard research protocols use 120 MCG to 10mg per unit, away from interfering substances for best absorption in test systems. Quantities depend on formulation strength and research goals.

Research compounds should be stored in controlled environment away from direct sunlight to maintain peptide integrity throughout the study period. Temperature and humidity control is crucial for compound stability during long term research.

Scientific research shows GHK-Cu has good tolerability profile in experimental models with minimal adverse effects when used according to established protocols. Research facilities should have proper safety protocols and consult with qualified personnel before starting studies, especially when combining with other compounds or studying complex biological systems.

The natural occurrence of this copper peptide contributes to its good safety profile in research. However, scientists should consider copper metabolism when designing experimental protocols, especially for prolonged exposure or high concentrations.

Why Buy from Loti Labs

Loti Labs offers research-grade copper peptides for various research applications and experimental designs. Our formulations are made in cGMP-certified facilities with strict quality control standards to ensure consistency and reliability for research.

All GHK-Cu research compounds are available in specialized formulations to fit various experimental requirements, with clear labeling and transparency in sourcing to support research documentation. Our copper peptides undergo comprehensive stability testing to ensure potency throughout shelf life, so researchers can get reliable data throughout their study period.

When you buy ghk cu capsules from Loti Labs, you get compounds that have gone through rigorous quality verification process. This attention to quality control ensures researchers can maintain consistent experimental conditions and get reproducible results across multiple studies.

Our research compounds support research into skin health, cellular regeneration and anti aging mechanisms through well characterized molecular pathways. Scientists studying brain health, holistic support systems and skin health applications will find our GHK-Cu formulations suitable for their research needs.

Our commitment to quality goes beyond basic purity testing to include copper binding integrity and peptide sequence verification. This thorough approach to quality assurance supports the scientific community’s need for research materials.

Products from Loti Labs are for Research Use Only

All products sold by Loti Labs are research chemicals for laboratory use only. This designation allows use of these compounds for in-vitro laboratory testing and experimentation under controlled scientific conditions.Human consumption or veterinary use is not allowed under our research use only guidelines. These products are not for therapeutic claims, food applications or cosmetic use and may not be misbranded, mislabeled or misused outside of their designated research use.

Researchers must follow proper protocols when working with these compounds and comply with institutional guidelines for research chemical handling. The research only designation protects both suppliers and researchers from legal issues and supports legitimate scientific research.

Healthcare provider consultation is recommended for research facilities developing protocols with these compounds. Scientific research institutions should have proper documentation and safety protocols when conducting studies with copper peptides and related research materials.

Loti Labs Shipping Policy

Loti Labs ships same day for orders placed before 1pm EST Monday through Friday so researchers can get their compounds quickly for time sensitive studies. Orders placed after 1pm EST or on weekends will be shipped the next business day to maintain consistent delivery schedule.

We package research chemicals properly to ensure compound integrity during transport. Temperature sensitive compounds receive special handling to maintain stability during delivery.

30 Day Money Back Guarantee

Loti Labs offers 30 day money back guarantee on all research compounds purchased from our facility. Researchers can return any unopened products for full refund of the purchase price so researchers can have scientific confidence and repeat business.

This guarantee reflects our commitment to supporting the research community with high quality, reliable compounds that meet scientific standards. Unopened products are in their original packaging and quality certifications so they meet the same standards as freshly manufactured products.

Third Party Testing of Every Batch

Every batch of GHK-Cu sold by Loti Labs is tested by a third party using HPLC to ensure product purity and accuracy for research use. This testing confirms the exact tripeptide sequence, copper binding integrity and absence of contaminants that could affect experimental results.

Quality control includes molecular weight verification, amino acid sequence accuracy and copper content analysis. This comprehensive testing provides researchers with quality assurance documentation for their research.

The testing documentation includes analytical reports that researchers can reference in their publications and research documentation. This transparency supports the scientific community’s need for traceable, verified research materials.

Batch to batch consistency testing ensures researchers can rely on uniform compound characteristics across multiple studies. This is critical for longitudinal research and multi-institutional collaborations that require standardized materials.

##Research into GHK-Cu is uncovering new cellular mechanisms and applications across multiple scientific fields. The compound’s unique molecular structure and multiple biological activities make it a valuable tool for researchers studying tissue repair, anti aging and cellular regeneration.

Researchers into wound healing, angiogenesis and anti inflammatory pathways will find this copper tripeptide useful for their laboratory work. The compound’s ability to tighten skin, support hair growth and influence gene expression provides multiple research opportunities.

Quality research demands quality compounds and when researchers buy ghk cu from established suppliers like Loti Labs they get tested, research grade materials that support scientific investigation. The combination of testing, proper storage and transparent documentation provides a solid foundation for scientific discovery.

Try our research grade GHK-Cu capsules for your next laboratory study and see the benefits this copper peptide offers for advancing scientific understanding of cellular regeneration and tissue repair.

References and Citations

1. Pickart L, Margolina A. Regenerative and Protective Actions of the GHK-Cu Peptide in the Light of the New Gene Data. Int J Mol Sci. 2018;19(7):1987. https://doi.org/10.3390/ijms19071987
2. Pickart L, Vasquez-Soltero JM, Margolina A. GHK Peptide as a Natural Modulator of Multiple Cellular Pathways in Skin Regeneration. Biomed Res Int. 2015;2015:648108. https://doi.org/10.1155/2015/648108
3. Hostynek JJ, Dreher F, Maibach HI. Human skin penetration of a copper tripeptide in vitro as a function of skin layer. Inflamm Res. 2011;60(1):79-86. https://doi.org/10.1007/s00011-010-0237-9

Weight	.06250 lbs