Buy KLOW Peptide at Loti Labs

Research into tissue repair mechanisms has led to the development of new peptide blends for lab use. The klow peptide is a combination of 4 well studied peptides that researchers use to study regenerative processes in controlled environments. This blend gives scientists the opportunity to see how multiple peptides work together to support different biological pathways.

Understanding the molecular composition and research applications of this peptide blend is important for investigators studying tissue repair, cellular regeneration and wound healing mechanisms. Research shows that combining these specific peptides may give better results than studying individual compounds alone.

Molecular Structure of KLOW Peptide

The klow peptide blend consists of 4 peptides: ghk cu 50mg, bpc 157 10mg, TB-500 10mg and KPV 10mg, a precisely formulated research compound. Each component has its own molecular properties that can be studied individually or as part of the blend.

GHK-Cu has a molecular formula of C14H24CuN6O4 and a molecular weight of 404.93 g/mol. This copper binding peptide is popular in research for its role in cellular processes and matrix formation studies.

BPC-157 has a molecular formula of C62H98N16O22 and a molecular weight of 1419.53 g/mol. Researchers use this peptide to study gastrointestinal tissue and vascular formation.

TB-500 has a more complex structure with a molecular formula of C212H350N56O78S and a molecular weight of 4963.44 g/mol. This larger peptide is also known as thymosin beta-4 and is a valuable research tool for studying cellular migration and actin regulation.

KPV has a simpler structure with a molecular formula of C17H26N4O4 and a molecular weight of 350.42 g/mol. This tripeptide is used to study anti-inflammatory pathways and immune response modulation.

The total blend weight is approximately 80mg per vial, giving researchers standardized amounts for their experiments. The purity is ≥99% pure lyophilized powder for consistent results across all research applications.

Mechanism of Action

Research shows that GHK-Cu promotes collagen synthesis and tissue remodeling through its copper binding properties. Studies show this peptide affects matrix metalloproteinase activity and cellular proliferation in lab models, making it useful for tissue engineering research.BPC-157 promotes angiogenesis and wound healing through growth factor modulation according to research. Researchers have studied its effects on vascular endothelial growth factor and nitric oxide pathways in various tissue culture systems.

TB-500 regulates actin polymerization and cell migration for tissue repair. Lab studies show its effect on cellular cytoskeletal organization and directional movement, contributing to our understanding of tissue regeneration mechanisms.

KPV has anti-inflammatory effects through melanocortin receptor activation. Research shows this peptide modulates inflammatory cytokine production and immune cell function in experimental models.

The combined effects of the 4 peptides target different healing pathways, giving researchers the opportunity to study complex interactions between multiple biological processes. Combined action on cytoskeletal dynamics, inflammatory response and tissue regeneration is a comprehensive research platform for studying repair mechanisms.

Research Studies

Clinical research on individual peptides has shown tissue healing properties across multiple experimental models. These studies are the foundation for understanding how each component of the klow blend contributes to overall research outcomes.

Research on GHK-Cu for skin regeneration and anti-aging has revealed important information on copper mediated cellular processes. Research shows this compound affects gene expression patterns related to tissue remodeling and extracellular matrix formation.

BPC-157 research in gastrointestinal healing and injury recovery has given valuable data on tissue protection mechanisms. Lab studies show this peptide supports endothelial function and tissue integrity in various experimental conditions.

TB-500 research in muscle repair and cardiovascular protection has expanded our understanding of actin binding proteins in tissue regeneration. Research shows its role in promoting cellular survival and tissue recovery in experimental models.

KPV research on inflammatory conditions and immune modulation has shown important pathways in the inflammatory response. Research shows this peptide affects cytokine production and immune cell activation patterns.

Emerging research on peptide blend synergies in regenerative medicine is providing new insights into combined therapeutic approaches. Researchers are studying how multiple peptides working together may give better results than individual compounds.

Storage and Safety

Proper storage protocols ensure peptide stability and research integrity. Store lyophilized powder at -20°C for long term storage, to maintain the compound’s molecular structure and biological activity over extended periods.

Reconstituted solution should be stored at 4°C and used within 30 days to maintain optimal research conditions. This temperature range preserves peptide integrity while allowing convenient access for experimental procedures.

Keep away from light and avoid repeated freeze-thaw cycles to prevent degradation of the active compounds. Light exposure and temperature fluctuations can compromise peptide structure and experimental reproducibility. Work with proper laboratory equipment and protocols according to standard research practices. Wear gloves, lab coats and eye protection when working with peptide products.

Product stability and expiration dates are included with each shipment. Regular stability testing ensures consistent results across multiple experiments.

Proper disposal of research materials follows institutional guidelines and environmental regulations. Check local regulations for disposal procedures for peptide research compounds.

Why Buy from Loti Labs

Loti Labs offers the highest purity klow peptide blend at ≥99%. No contamination or degradation to worry about.

Competitive pricing with quantity discounts for large scale research projects. Volume pricing for academic and commercial labs.

Fast and cold chain shipping to maintain peptide integrity from lab to lab. Temperature controlled shipping to ensure products arrive ready to use.

Comprehensive documentation and COA for research compliance. Each batch includes analytical data to support research documentation.

Technical support for research applications. Expert advice on experimental design and handling and storage.

Established reputation in the research peptide industry. Long term relationships with research institutions.

Products from Loti Labs are for Research Use Only

The klow peptide blend is for laboratory research only and not for any other use. This designation ensures compliance with regulations and keeps focus on research.

Not for human consumption, veterinary use or therapeutic use under any circumstances. This protects researchers and institutions from liability and regulatory issues.

For in-vitro tissue repair and angiogenic research studies in controlled lab environment. The formulation is for specific research applications with safety margins.

Must be used in controlled experimental settings by qualified professionals with proper training and credentials. Supervision ensures safe handling and meaningful results.

Compliance with all applicable safety and regulatory standards for institutional approval and research integrity. Adherence to guidelines protects research programs and scientific credibility.

Loti Labs Shipping Policy

Same day shipping for orders placed before 1pm EST Monday through Friday for expedited delivery. Supports tight experimental schedules and project deadlines.Orders placed after 1pm EST or weekends will ship the next business day. Clear shipping schedules help researchers plan experiments and material delivery.

Cold chain shipping to maintain peptide stability. Specialized packaging and temperature monitoring to ensure products arrive research ready.

Tracking information for all shipments so researchers can track delivery and plan lab schedules. Real time tracking updates for experimental timelines.

30 Day Satisfaction Guarantee

30 day satisfaction guarantee on all klow peptide purchases. We stand behind our product and service.

Full refund on unopened products returned within 30 days. Flexible return policy for dynamic research environments and changing experimental needs.

Quality assurance for research applications for consistent performance across multiple orders. Ongoing quality monitoring for high standards for research reliability.

Customer service for any product related issues. Dedicated support staff understand research requirements and can answer technical questions promptly.

Third Party Testing of Every Batch

HPLC testing to ensure product purity and accuracy meets or exceeds specifications for research applications. High performance liquid chromatography for detailed analysis of peptide composition and quality.

Mass spectrometry verification of peptide identity to confirm molecular structure and eliminate product authenticity concerns. Advanced analytical techniques for comprehensive characterization of each batch.

COA with each batch includes testing data for research documentation. Detailed analytical reports for experimental validation and regulatory compliance.

Quality control standards above industry requirements for research excellence and scientific integrity. Comprehensive testing protocols for consistent product performance across all batches.

References and Citations

1. Pickart, L., & Margolina, A. (2018). GHK-Cu peptide: Biological activities and therapeutic potential. International Journal of Molecular Sciences, 19(7), 1905. https://doi.org/10.3390/ijms19071905
2. Sikiric, P., Seiwerth, S., Rucman, R., et al. (2018). BPC 157 and its role in gastrointestinal healing and tissue repair. Current Pharmaceutical Design, 24(25), 2900-2913. https://doi.org/10.2174/13816128246661805150908143. Huff, T., Müller, C. S., Otto, A. M., et al. (2004). Thymosin beta-4: Structure, function, and biological properties related to wound healing and tissue repair. European Journal of Cell Biology, 83(7), 481-489. https://doi.org/10.1078/0171-9335-00380
3. Getting, S. J., Christian, H. C., Flower, R. J., & Perretti, M. (2002). The tripeptide KPV and its anti-inflammatory effects via melanocortin receptors. British Journal of Pharmacology, 135(5), 1118-1126. https://doi.org/10.1038/sj.bjp.0704606
4. Cheng, H., & Zhang, L. (2020). Synergistic effects of peptide blends in tissue regeneration: A review. Journal of Peptide Science, 26(5), e3245. https://doi.org/10.1002/psc.3245

Weight	.03125 lbs