KLOW Blend – GHK-Cu 50mg | BPC-157 10mg | TB500 10mg | KPV 10mg

KLOW – Multi-Peptide Research Stack for Advanced Laboratory Studies

KLOW is a combined research peptide formulation composed of four well-characterised peptides frequently examined in cellular signalling, structural peptide interaction, and tissue-level pathway research. The formulation brings together KPV, BPC-157, TB500, and GHK-Cu into a single research vial for use in multi-pathway experimental models.

KLOW is designed for laboratories investigating overlapping peptide signalling networks, particularly where immune-associated pathways, cytoskeletal dynamics, extracellular matrix interaction, and peptide-mediated cellular communication are explored concurrently under controlled research conditions.

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Peptide Composition

KLOW contains the following research peptides:

• KPV – a tripeptide fragment (Lys-Pro-Val) studied in immune-associated and inflammatory signalling research
• BPC-157 – (Body Protection Compound 157) a pentadecapeptide widely examined in cellular signalling, actin dynamics, and tissue-model studies
• TB500 (Thymosin Beta-4 fragment) – investigated for its role in actin binding, cell migration, and angiogenesis-related research pathways
• GHK-Cu – a copper-binding tripeptide studied in extracellular matrix signalling, gene expression modulation, and cosmetic research models

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Product Specifications

• Product Name: KLOW
• Peptide Type: Multi-peptide research blend
• Form: Lyophilised powder
• Purity: ≥99%+ (HPLC verified, per peptide where applicable)
• Solubility: Bacteriostatic water (laboratory use only)
• Storage: 2–8 °C (short term) / −20 °C (long term)
• Packaging: Research vial, free from additives

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Scientific Insight & Research Context

• Multi-Pathway Research: Utilised in laboratory studies examining overlapping peptide signalling cascades across immune, structural, and cellular-regulation systems
• Actin & Structural Signalling: TB500 and BPC-157 are commonly studied in experimental models involving cytoskeletal organisation and actin-associated pathways
• Immune-Associated Peptide Research: KPV is frequently examined in immune-signalling and inflammatory pathway models
• Extracellular Matrix & Cosmetic Research: GHK-Cu is widely explored in matrix signalling, copper-dependent peptide activity, and cosmetic research environments

KLOW is often selected for integrated research designs where investigators seek to evaluate combined peptide behaviour rather than isolated single-peptide activity.

🧪 For Laboratory Research Use Only

Not intended for human consumption or therapeutic application.