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AHK-Cu Peptide for Advanced Molecular and Cellular Research

AHK-Cu Peptide is a high-purity synthetic copper-binding tripeptide developed for advanced laboratory investigations involving dermal cell biology, extracellular matrix dynamics, peptide-mediated signaling, and cellular communication. Supplied as a stable lyophilized powder, this research-grade peptide supports reproducible experimental workflows across biotechnology, pharmaceutical, and academic laboratories. Each batch undergoes rigorous analytical verification and is accompanied by comprehensive quality documentation, including a Certificate of Analysis (COA), to ensure consistency for scientific research.

For research use only. Not intended for human consumption or clinical use.

AHK-Cu Peptide

🧬
Research Grade

Premium Laboratory Quality

📄
COA Included

Batch-Specific Documentation

🧪
Third-Party Tested

Identity & Purity Verified

🚚
Fast Shipping

Worldwide Delivery

Price range: $42.00 through $68.00

📦
Discreet Packaging 100% Private
🛡️
Secure Shipping Fast & Reliable
Free Delivery On Crypto Payments
🚚
Expedited Shipping Delivery in 2–3 Days

Description

Product Overview

AHK-Cu Peptide is a synthetic copper-complexed tripeptide composed of alanine, histidine, and lysine coordinated with a copper ion. Within published scientific literature, copper peptides have attracted considerable attention because of their ability to participate in cellular signaling processes associated with extracellular matrix biology, fibroblast activity, angiogenic pathways, and peptide-mediated molecular communication.

In laboratory settings, AHK-Cu serves as a valuable research compound for investigating interactions between copper-dependent biochemical processes and cellular signaling networks. Researchers utilize controlled experimental models to evaluate its influence on dermal papilla cells, extracellular matrix proteins, collagen-associated gene expression, growth factor regulation, and cellular proliferation under defined laboratory conditions.

Its relatively small molecular structure facilitates investigations into peptide transport, copper ion coordination chemistry, and receptor-independent signaling mechanisms involved in tissue-derived cell cultures. These characteristics make AHK-Cu a versatile research tool across multiple areas of molecular biology and peptide science.

Manufactured under stringent quality standards and supplied as a lyophilized powder, AHK-Cu Peptide provides laboratories with consistent material suitable for reproducible experimental protocols. Every production lot undergoes analytical identity confirmation and purity verification to support reliable scientific investigations.

For research use only. Not intended for human consumption or clinical use.

Key Research Highlights

  • Synthetic copper-binding tripeptide for laboratory investigations
  • High-purity lyophilized research material
  • Supports extracellular matrix signaling research
  • Frequently investigated in dermal papilla cell models
  • Studied in collagen-related molecular pathways
  • Suitable for angiogenic signaling investigations
  • Used in fibroblast biology research
  • Batch-specific Certificate of Analysis (COA) available
  • Manufactured using rigorous quality-control standards
  • Optimized for reproducible laboratory applications

Why Researchers Choose This Product

  • High analytical purity verified by HPLC
  • Batch-to-batch manufacturing consistency
  • Identity confirmed using advanced analytical methods
  • Stable lyophilized formulation
  • Suitable for academic and industrial research laboratories
  • Comprehensive quality documentation with every batch
  • Supports diverse molecular biology applications
  • Reliable for in vitro and preclinical investigations
  • Produced exclusively for scientific research
  • Available in multiple vial sizes to accommodate different study designs

Research Applications

Dermal Papilla Cell Biology

AHK-Cu Peptide is widely investigated in cultured dermal papilla cell models to examine peptide-mediated cellular communication, proliferation, differentiation, and gene expression associated with connective tissue biology.

Extracellular Matrix Research

Researchers employ AHK-Cu to study extracellular matrix remodeling, collagen-associated molecular pathways, glycosaminoglycan regulation, and interactions between matrix proteins within controlled laboratory environments.

Fibroblast Signaling Studies

Experimental investigations utilize AHK-Cu to evaluate fibroblast activity, cellular metabolism, peptide signaling, and protein synthesis associated with extracellular structural components.

Copper-Dependent Molecular Biology

The copper-complexed structure enables research into copper ion transport, metal-peptide coordination chemistry, enzymatic regulation, and intracellular signaling mechanisms influenced by biologically active copper complexes.

Angiogenic Signaling Research

Researchers investigate AHK-Cu within laboratory models examining vascular endothelial growth factor (VEGF)-associated pathways, endothelial cell behavior, and signaling interactions relevant to vascular biology.

Peptide Pharmacology

AHK-Cu serves as a valuable model compound for studying peptide stability, cellular uptake, intracellular trafficking, peptide metabolism, and structure-function relationships in experimental systems.

Product Specifications

Specification Details
Product Name AHK-Cu Peptide
Purity ≥99% (HPLC Verified)
Molecular Formula C₁₄H₂₄CuN₆O₄
Molecular Weight 401.91 g/mol
CAS Number 89030-95-5*
Appearance Blue to blue-violet lyophilized powder
Storage Conditions Store refrigerated at 2–8°C. For extended storage, keep at -20°C in a dry, light-protected environment.
Solubility Soluble in sterile laboratory-grade water or appropriate research buffers
Sequence Ala-His-Lys-Cu (AHK-Cu)
Available Sizes 20 mg, 50 mg, 100 mg

*CAS numbers may vary depending on supplier registration and formulation. Verify against your batch documentation if applicable.

High-purity-AHK-Cu-Peptide

Mechanism of Action

AHK-Cu Peptide is a synthetic copper-coordinated tripeptide consisting of alanine, histidine, and lysine bound to a divalent copper ion. Its biological activity in laboratory research is primarily attributed to the unique chemical properties of peptide-bound copper and the peptide’s ability to participate in multiple intracellular signaling processes rather than interaction with a single receptor target.

Within experimental systems, AHK-Cu functions as a biologically active copper carrier capable of facilitating copper-dependent biochemical reactions essential for numerous cellular processes. Copper serves as an important cofactor for enzymes involved in oxidative metabolism, extracellular matrix organization, antioxidant defense mechanisms, and connective tissue biology. The peptide-copper complex provides researchers with a model for investigating regulated copper delivery and its influence on cellular physiology.

Published research has demonstrated that AHK-Cu influences gene expression patterns associated with extracellular matrix proteins, including collagen-related pathways, matrix metalloproteinases (MMPs), tissue inhibitors of metalloproteinases (TIMPs), and proteins involved in structural matrix homeostasis. These investigations suggest that copper-peptide complexes participate in signaling events regulating matrix remodeling and fibroblast function under controlled laboratory conditions.

Experimental studies have also examined the peptide’s relationship with vascular endothelial growth factor (VEGF)-associated signaling pathways, intracellular kinase activation, and transcriptional responses that influence endothelial and dermal cell behavior. Rather than acting through classical receptor agonism, AHK-Cu appears to modulate multiple downstream signaling networks involved in cellular communication, proliferation, migration, and protein synthesis.

At the cellular level, researchers continue investigating interactions between AHK-Cu and pathways associated with oxidative stress regulation, mitochondrial metabolism, growth factor expression, and peptide-mediated signal transduction. Copper coordination may influence enzymatic activity involved in maintaining cellular redox balance and supporting biochemical processes dependent on trace metal availability.

Because of its relatively small molecular size and well-characterized peptide chemistry, AHK-Cu remains an important research tool for studying copper-dependent molecular biology, extracellular matrix regulation, fibroblast physiology, and peptide-mediated signaling networks. Ongoing laboratory investigations continue to expand understanding of its molecular interactions, pharmacodynamic characteristics, and role in complex cellular systems.

For research use only. Not intended for human consumption or clinical use.

Additional information

Size

100mg, 20mg, 50mg

Dimensions

9 × 7 × .5 in

Weight

.125 lbs

Reviews

There are no reviews yet.

Be the first to review “AHK-Cu Peptide”

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AHK-Cu Peptide

🧬
Research Grade

Premium Laboratory Quality

📄
COA Included

Batch-Specific Documentation

🧪
Third-Party Tested

Identity & Purity Verified

🚚
Fast Shipping

Worldwide Delivery

Price range: $42.00 through $68.00

📦
Discreet Packaging 100% Private
🛡️
Secure Shipping Fast & Reliable
Free Delivery On Crypto Payments
🚚
Expedited Shipping Delivery in 2–3 Days

Description

Product Overview

AHK-Cu Peptide is a synthetic copper-complexed tripeptide composed of alanine, histidine, and lysine coordinated with a copper ion. Within published scientific literature, copper peptides have attracted considerable attention because of their ability to participate in cellular signaling processes associated with extracellular matrix biology, fibroblast activity, angiogenic pathways, and peptide-mediated molecular communication.

In laboratory settings, AHK-Cu serves as a valuable research compound for investigating interactions between copper-dependent biochemical processes and cellular signaling networks. Researchers utilize controlled experimental models to evaluate its influence on dermal papilla cells, extracellular matrix proteins, collagen-associated gene expression, growth factor regulation, and cellular proliferation under defined laboratory conditions.

Its relatively small molecular structure facilitates investigations into peptide transport, copper ion coordination chemistry, and receptor-independent signaling mechanisms involved in tissue-derived cell cultures. These characteristics make AHK-Cu a versatile research tool across multiple areas of molecular biology and peptide science.

Manufactured under stringent quality standards and supplied as a lyophilized powder, AHK-Cu Peptide provides laboratories with consistent material suitable for reproducible experimental protocols. Every production lot undergoes analytical identity confirmation and purity verification to support reliable scientific investigations.

For research use only. Not intended for human consumption or clinical use.

Key Research Highlights

  • Synthetic copper-binding tripeptide for laboratory investigations
  • High-purity lyophilized research material
  • Supports extracellular matrix signaling research
  • Frequently investigated in dermal papilla cell models
  • Studied in collagen-related molecular pathways
  • Suitable for angiogenic signaling investigations
  • Used in fibroblast biology research
  • Batch-specific Certificate of Analysis (COA) available
  • Manufactured using rigorous quality-control standards
  • Optimized for reproducible laboratory applications

Why Researchers Choose This Product

  • High analytical purity verified by HPLC
  • Batch-to-batch manufacturing consistency
  • Identity confirmed using advanced analytical methods
  • Stable lyophilized formulation
  • Suitable for academic and industrial research laboratories
  • Comprehensive quality documentation with every batch
  • Supports diverse molecular biology applications
  • Reliable for in vitro and preclinical investigations
  • Produced exclusively for scientific research
  • Available in multiple vial sizes to accommodate different study designs

Research Applications

Dermal Papilla Cell Biology

AHK-Cu Peptide is widely investigated in cultured dermal papilla cell models to examine peptide-mediated cellular communication, proliferation, differentiation, and gene expression associated with connective tissue biology.

Extracellular Matrix Research

Researchers employ AHK-Cu to study extracellular matrix remodeling, collagen-associated molecular pathways, glycosaminoglycan regulation, and interactions between matrix proteins within controlled laboratory environments.

Fibroblast Signaling Studies

Experimental investigations utilize AHK-Cu to evaluate fibroblast activity, cellular metabolism, peptide signaling, and protein synthesis associated with extracellular structural components.

Copper-Dependent Molecular Biology

The copper-complexed structure enables research into copper ion transport, metal-peptide coordination chemistry, enzymatic regulation, and intracellular signaling mechanisms influenced by biologically active copper complexes.

Angiogenic Signaling Research

Researchers investigate AHK-Cu within laboratory models examining vascular endothelial growth factor (VEGF)-associated pathways, endothelial cell behavior, and signaling interactions relevant to vascular biology.

Peptide Pharmacology

AHK-Cu serves as a valuable model compound for studying peptide stability, cellular uptake, intracellular trafficking, peptide metabolism, and structure-function relationships in experimental systems.

Product Specifications

Specification Details
Product Name AHK-Cu Peptide
Purity ≥99% (HPLC Verified)
Molecular Formula C₁₄H₂₄CuN₆O₄
Molecular Weight 401.91 g/mol
CAS Number 89030-95-5*
Appearance Blue to blue-violet lyophilized powder
Storage Conditions Store refrigerated at 2–8°C. For extended storage, keep at -20°C in a dry, light-protected environment.
Solubility Soluble in sterile laboratory-grade water or appropriate research buffers
Sequence Ala-His-Lys-Cu (AHK-Cu)
Available Sizes 20 mg, 50 mg, 100 mg

*CAS numbers may vary depending on supplier registration and formulation. Verify against your batch documentation if applicable.

High-purity-AHK-Cu-Peptide

Mechanism of Action

AHK-Cu Peptide is a synthetic copper-coordinated tripeptide consisting of alanine, histidine, and lysine bound to a divalent copper ion. Its biological activity in laboratory research is primarily attributed to the unique chemical properties of peptide-bound copper and the peptide’s ability to participate in multiple intracellular signaling processes rather than interaction with a single receptor target.

Within experimental systems, AHK-Cu functions as a biologically active copper carrier capable of facilitating copper-dependent biochemical reactions essential for numerous cellular processes. Copper serves as an important cofactor for enzymes involved in oxidative metabolism, extracellular matrix organization, antioxidant defense mechanisms, and connective tissue biology. The peptide-copper complex provides researchers with a model for investigating regulated copper delivery and its influence on cellular physiology.

Published research has demonstrated that AHK-Cu influences gene expression patterns associated with extracellular matrix proteins, including collagen-related pathways, matrix metalloproteinases (MMPs), tissue inhibitors of metalloproteinases (TIMPs), and proteins involved in structural matrix homeostasis. These investigations suggest that copper-peptide complexes participate in signaling events regulating matrix remodeling and fibroblast function under controlled laboratory conditions.

Experimental studies have also examined the peptide’s relationship with vascular endothelial growth factor (VEGF)-associated signaling pathways, intracellular kinase activation, and transcriptional responses that influence endothelial and dermal cell behavior. Rather than acting through classical receptor agonism, AHK-Cu appears to modulate multiple downstream signaling networks involved in cellular communication, proliferation, migration, and protein synthesis.

At the cellular level, researchers continue investigating interactions between AHK-Cu and pathways associated with oxidative stress regulation, mitochondrial metabolism, growth factor expression, and peptide-mediated signal transduction. Copper coordination may influence enzymatic activity involved in maintaining cellular redox balance and supporting biochemical processes dependent on trace metal availability.

Because of its relatively small molecular size and well-characterized peptide chemistry, AHK-Cu remains an important research tool for studying copper-dependent molecular biology, extracellular matrix regulation, fibroblast physiology, and peptide-mediated signaling networks. Ongoing laboratory investigations continue to expand understanding of its molecular interactions, pharmacodynamic characteristics, and role in complex cellular systems.

For research use only. Not intended for human consumption or clinical use.

Additional information

Size

100mg, 20mg, 50mg

Dimensions

9 × 7 × .5 in

Weight

.125 lbs

Reviews

There are no reviews yet.

Be the first to review “AHK-Cu Peptide”

Your email address will not be published. Required fields are marked *

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