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GHK-Cu 50mg research peptide Australia

GHK-Cu 50mg

GHK-Cu 50mg for laboratory research in Australia. Research-use only peptide supply with CoA support and clear product information.
Syringe Volume
Peptide Vial Quantity (mg)
Bacteriostatic Water (ml)
Desired Dosage (mg)

Pull the syringe to:

10.0 units

(0.100ml)

Concentration: 5.00 mg/ml

Doses per vial: 30

How to Use This Calculator

  1. Syringe Volume — Select the size of your insulin syringe.
  2. Peptide Vial Quantity — Enter the total amount of lyophilised peptide in milligrams.
  3. Bacteriostatic Water — Enter the volume of diluent in millilitres.
  4. Desired Dosage — Set the desired amount in milligrams.

Reconstitution Guidelines

  • Use bacteriostatic water or an appropriate diluent as required for your research protocol.
  • Direct the stream of diluent against the vial wall rather than directly onto the powder.
  • Gently swirl until dissolved. Do not shake.
  • Use sterile technique throughout the process.

Disclaimer

This calculator is provided as a reference tool for research purposes only. Always follow your institution’s safety protocols when handling research compounds.

Introduction to GHK-Cu 50mg

GHK-Cu 50mg is a copper-binding research peptide complex studied in relation to extracellular matrix research, skin pathway research, wound-response models, tissue-remodelling research, copper transport biology and oxidative stress pathway models.

GHK-Cu is commonly described as a copper complex of the tripeptide glycyl-L-histidyl-L-lysine, also known as GHK. Research literature describes GHK-Cu as a multifunctional copper peptide with interest across tissue repair, extracellular matrix remodelling, inflammatory pathway regulation and redox biology.

This product is supplied for laboratory research use only. It is not a medicine, cosmetic product, skincare product, injectable product, wound-healing product, anti-ageing product, hair growth product or supplement for human use.

Product Overview GHK-Cu 50mg

Product Detail Information
Product name GHK-Cu
Common research names Copper peptide GHK-Cu, Cu-GHK, glycyl-L-histidyl-L-lysine copper complex
Size 50mg
Product type Copper peptide research compound
Research category Skin Research / Tissue Remodelling Research / Copper Peptide Research
Common research interest Extracellular matrix, collagen pathway models, wound-response research, copper biology and oxidative stress pathway research
Peptide type Copper-bound tripeptide complex
Parent peptide Glycyl-L-histidyl-L-lysine, also known as GHK
Form Lyophilised powder or supplier-specific research preparation
Intended use Laboratory research only
Human use Not for human consumption, cosmetic use, topical use, wound care, hair growth, administration or injection
Documentation Certificate of Analysis should be checked before use

What Is GHK-Cu Made Up Of?

Component Research Class General Research Role
GHK Tripeptide Glycyl-L-histidyl-L-lysine peptide sequence studied in copper-binding research
Copper ion Metal coordination component Studied in relation to copper-dependent biological signalling and redox pathway research
GHK-Cu complex Copper peptide complex Studied in extracellular matrix, wound-response, skin and tissue-remodelling pathway models
Glycine Amino acid component Part of the GHK tripeptide sequence
Histidine Amino acid component Important in copper coordination research because of its imidazole side chain
Lysine Amino acid component Part of the GHK tripeptide sequence
Molecular formula Supplier and listing dependent PubChem lists separate GHK-Cu and Cu-GHK entries, so CoA confirmation is important
Lyophilised preparation Freeze-dried research format Supports stability before laboratory preparation when stored correctly

PubChem contains GHK-Cu and Cu-GHK compound entries, with GHK-Cu listed as C28H48CuN12O8 and Cu-GHK listed as C14H24CuN6O4. Because copper peptide listings can vary by complex form and supplier documentation, product identity, copper content, salt form, purity and batch information should always be confirmed through the Certificate of Analysis.

How GHK-Cu Works in Research

GHK-Cu is studied as a copper peptide complex. In research models, it is commonly examined for its relationship with extracellular matrix signalling, collagen-related pathway models, wound-response research, tissue-remodelling biology, inflammatory pathway research and oxidative stress response.

A PubMed Central review describes GHK-Cu research in relation to protective and regenerative actions in human skin research and discusses gene expression data as part of the proposed mechanisms behind these effects. This should be understood as research literature context only, not as a claim that a research-use GHK-Cu 50mg vial is approved, safe or effective for human skin, wound healing, cosmetic, hair growth or anti-ageing use.

Research Mechanism Summary

Research Area GHK-Cu
Main research category Copper peptide research
Parent peptide Glycyl-L-histidyl-L-lysine
Metal component Copper
Peptide length Tripeptide
Common pathway interest Extracellular matrix, collagen pathway and tissue-remodelling research
Skin research interest Skin cell models, dermal pathway research and gene expression models
Wound-response interest Preclinical wound-response and tissue-repair pathway research
Oxidative stress interest Copper biology, redox signalling and oxidative stress pathway models
Evidence limitation Laboratory, preclinical, cosmetic science and limited translational research contexts
Product limitation Research use only, not approved for human use

GHK-Cu vs GHK

Feature GHK-Cu GHK
Product class Copper-bound peptide complex Parent tripeptide
Main components GHK peptide plus copper Glycyl-L-histidyl-L-lysine
Common research focus Copper peptide signalling, extracellular matrix and tissue-remodelling models Peptide signalling and copper-binding precursor research
Copper status Copper-complexed form Not necessarily copper-bound unless complexed
Common SEO risk Being marketed as skincare, hair growth or anti-ageing Being marketed as a cosmetic peptide
Safer positioning Copper peptide research compound Tripeptide research compound

GHK-Cu vs GHK Basic

Feature GHK-Cu GHK Basic
Research class Copper peptide complex Non-copper or parent peptide form, depending on supplier
Main research interest Copper coordination, extracellular matrix and skin pathway research Parent peptide and copper-binding comparison research
Colour expectation Often blue due to copper complexation May not have the same copper-complex appearance
Product verification Requires copper content and identity confirmation Requires sequence and identity confirmation
Human-use claim Not appropriate Not appropriate

GHK-Cu vs BPC-157

Feature GHK-Cu BPC-157
Research class Copper-bound tripeptide complex Stable gastric pentadecapeptide research peptide
Main research focus Skin pathway, extracellular matrix and tissue-remodelling research Gastric peptide, cytoprotection and tissue-response pathway research
Peptide length Tripeptide complex 15-amino-acid peptide
Common overlap Wound-response and tissue-remodelling research models Wound-response and soft tissue pathway research models
Common SEO risk Skincare, anti-ageing and hair growth claims Injury recovery and gut-healing claims
Safer positioning Copper peptide and extracellular matrix research Gastric pentadecapeptide research

GHK-Cu 50mg vs Other GHK-Cu Strengths

Strength Product Page Positioning
GHK-Cu 50mg Standard research amount for copper peptide pathway and extracellular matrix research
GHK-Cu 100mg Higher research amount for larger protocol-specific concentration planning

GHK-Cu strengths should be treated as product variants, not duplicate product pages. If multiple strengths are listed separately, each page should have a strength-specific title, meta description, slug, concentration table and internal links to reduce SEO cannibalisation.

Research Areas Commonly Discussed GHK-Cu 50mg

Common Online Claim Safer Research-Use Wording
Anti-ageing Studied in ageing-related skin pathway and extracellular matrix research models
Wrinkle reduction Better framed as dermal matrix and collagen pathway research
Collagen boost Better framed as collagen-related gene expression and extracellular matrix research
Hair growth Not an approved or appropriate product claim
Skin repair Better framed as wound-response and tissue-remodelling pathway research
Scar improvement Not an approved or appropriate product claim
Wound healing Studied in wound-response models, not a human-use claim
Cosmetic use Not suitable for research-use product positioning

Important Human-Use Disclaimer GHK-Cu 50mg

GHK-Cu 50mg is not intended to diagnose, treat, cure or prevent any disease. It is not supplied for skincare, anti-ageing, wrinkle reduction, collagen boosting, wound healing, scar treatment, hair growth, cosmetic use, topical application, injection, supplementation, tissue repair, general wellness or therapeutic use.

All information on this page is provided for laboratory research and product handling context only.

Recommended Dilution for Research Use GHK-Cu 50mg

There is no universal recommended dilution for GHK-Cu 50mg. Dilution depends on the research protocol, required working concentration, assay design, solvent compatibility, copper complex form, storage method and validated laboratory procedure.

Because GHK-Cu is a copper peptide complex, researchers should confirm solvent compatibility, pH conditions, copper stability and assay suitability through the Certificate of Analysis, SDS and validated research protocol.

For research concentration planning only, the basic formula is:

Total peptide complex amount divided by diluent volume equals final concentration.

Example Research Concentration Table GHK-Cu 50mg

Diluent Added to 50mg Vial Final Concentration
1mL 50mg/mL
2mL 25mg/mL
5mL 10mg/mL
10mL 5mg/mL
20mL 2.5mg/mL
25mL 2mg/mL
50mL 1mg/mL

These are research concentration examples only. They are not human dosing instructions and must not be used to calculate injection quantities, topical quantities or cosmetic formulation directions.

Before You Start: What You’ll Need

Before handling GHK-Cu 50mg in a laboratory setting, make sure all materials, documentation and clean handling conditions are prepared.

Item Purpose
Product vial Contains GHK-Cu copper peptide research compound
Certificate of Analysis Confirms batch-level testing information
SDS or safety documentation Provides handling, hazard and disposal guidance
Copper content or identity documentation Helps confirm the product is the intended copper peptide complex
Suitable research-grade diluent Used to prepare a working research solution if compatible
Sterile or clean lab consumables Helps reduce contamination and cross-contamination risk
Personal protective equipment Gloves, lab coat and eye protection
Alcohol wipes or approved disinfectant Used for surface and vial-top preparation
Laboratory labels Records concentration, date, batch and handler details
Controlled storage access Supports correct storage after preparation
Disposal container Used for compliant laboratory waste disposal

Before Reconstitution, Check

  • The product name matches the intended research protocol.
  • The vial strength matches the product record.
  • The batch number matches the Certificate of Analysis.
  • The product is confirmed as GHK-Cu, not plain GHK.
  • The copper complex identity or copper content has been checked where documentation provides it.
  • The vial is sealed and undamaged.
  • The powder appearance is consistent with supplier documentation.
  • The product has been stored correctly.
  • The product is not expired or compromised.
  • The selected diluent or solvent is compatible with the copper peptide complex.
  • The required working concentration has already been defined.
  • The product is clearly marked as research use only.
  • Any skincare, cosmetic, anti-ageing, hair growth, topical-use or wound-healing wording has been removed from customer-facing use instructions.

Reconstitution Step by Step for Laboratory Research

The following is a general laboratory handling framework only. Always follow the product Certificate of Analysis, supplier documentation, SDS, institutional procedures and validated research protocol.

Step 1: Confirm Product Documentation

Check the product label, batch number, Certificate of Analysis, SDS, copper complex details and storage requirements before handling the vial.

Step 2: Prepare a Clean Work Area

Use a clean laboratory workspace. Wear appropriate PPE and disinfect the bench surface, vial top and any required equipment.

Step 3: Confirm Diluent Compatibility

Do not assume every peptide diluent is suitable for a copper peptide complex. Confirm compatibility through supplier documentation, SDS and the approved research protocol.

Step 4: Allow Materials to Settle Before Handling

If the vial has been stored cold, allow it to equilibrate according to laboratory procedure before opening or reconstitution. Avoid condensation entering the vial.

Step 5: Add Diluent Slowly

Add the selected research-grade diluent slowly down the inside wall of the vial. Avoid forceful spraying directly onto the lyophilised powder.

Step 6: Gently Mix

Gently swirl or roll the vial until the powder is dissolved. Avoid aggressive shaking, unnecessary vortexing or foaming unless a validated protocol specifically allows it.

Step 7: Inspect the Solution

Check the solution for unexpected cloudiness, visible particles, unusual colour changes, precipitation or undissolved material. If anything appears abnormal, quarantine the vial and check supplier documentation.

Step 8: Label and Store According to Protocol

Label the vial or aliquots with the product name, concentration, diluent used, date prepared, batch number and researcher initials. Store according to the validated protocol as soon as possible.

If It Won’t Dissolve

Some copper peptide complexes may require protocol-specific handling. Dissolution should always be handled gently and according to laboratory documentation.

Issue What It May Indicate Safer Response
Powder clinging to vial wall Static or lyophilisation residue Allow more contact time with diluent
Small particles remain Incomplete hydration or concentration issue Continue gentle mixing and check protocol
Cloudy solution Possible incompatibility or contamination Stop and check documentation
Precipitation appears Possible pH, solvent or concentration incompatibility Quarantine and reassess preparation method
Unexpected colour change Possible degradation, oxidation or contamination Do not continue without supplier guidance
Product identity unclear Possible GHK/GHK-Cu confusion Stop and confirm CoA before using

Do Not Try to Force Dissolution By

  • Shaking aggressively.
  • Heating the vial without protocol approval.
  • Adding random solvents.
  • Mixing acids, bases, alcohols or oils without validated compatibility.
  • Assuming peptide reconstitution steps automatically apply to copper peptide complexes.
  • Assuming bacteriostatic water is suitable.
  • Using a vial that appears contaminated.
  • Using a vial that has changed colour unexpectedly.
  • Continuing with a solution that does not match expected appearance.
  • Preparing a high-concentration solution without checking protocol compatibility.
  • Copying cosmetic formulation directions from skincare blogs or social media.

Storage Before Reconstitution GHK-Cu 50mg

Storage Factor Guidance
Product form Lyophilised powder or supplier-specific dry preparation
Storage condition Follow supplier label, CoA and SDS
Light exposure Protect from unnecessary light exposure
Moisture exposure Keep sealed until use
Temperature changes Avoid repeated temperature cycling
Handling Minimise unnecessary opening or exposure
Variant control Store and label separately from plain GHK or non-copper peptide products

Storage After Reconstitution GHK-Cu 50mg

Storage Factor Guidance
Storage condition Follow validated research protocol
Labelling Record product name, concentration, diluent, date and batch number
Copper complex tracking Record copper-complex form if documented
Freeze-thaw cycles Avoid repeated freeze-thaw exposure
Aliquoting Use small research aliquots where appropriate
Contamination control Use clean laboratory technique
Light exposure Protect from unnecessary light exposure where required
Disposal Dispose according to laboratory waste procedures

Copper peptide complexes may be sensitive to temperature, light, pH, oxidation, solvent conditions and contamination. Storage conditions should be confirmed through supplier documentation or the laboratory’s validated method.

Drawing and Injecting Dose GHK-Cu 50mg

This page does not provide human dosing, injection instructions, injection schedules, cosmetic-use instructions, topical-use directions or administration guidance.

GHK-Cu 50mg is not supplied for human or animal administration. It is a laboratory research-use product only.

For research settings, any measured aliquots should be prepared according to the concentration required by the approved research protocol. All calculations should be checked, documented and traceable.

Research Aliquot Planning Table GHK-Cu 50mg

Planning Item What to Record
Final concentration Total GHK-Cu amount and diluent volume
Working solution Concentration used in the research protocol
Aliquot volume Volume transferred into each labelled lab tube
Batch details Product batch, CoA and preparation date
Copper complex confirmation Confirmation that the product is GHK-Cu, not plain GHK
Diluent or solvent Exact diluent, solvent or vehicle used
Storage location Fridge, freezer, desiccator or other controlled storage area
Handler details Researcher name or initials
Preparation date Date and time of reconstitution
Disposal date When the aliquot should no longer be used
Strength check Confirmation that the 50mg vial strength matches the approved research protocol

Safety and Common Mistakes GHK-Cu 50mg

Correct handling is important for research consistency, contamination control, copper complex stability and product traceability. Most mistakes occur when products are not labelled clearly, copper complex form is not confirmed, solvent compatibility is assumed, concentration calculations are not recorded or storage conditions are not followed.

Because GHK-Cu is commonly discussed online in relation to skincare, anti-ageing, collagen, wound healing and hair growth, product pages should avoid wording that could be interpreted as encouraging human self-use, injection, topical application, cosmetic use or therapeutic use.

Always Do This

Always Why It Matters
Check the Certificate of Analysis Confirms batch-level information
Review SDS or safety documentation Supports safe laboratory handling and disposal
Confirm copper peptide identity Helps distinguish GHK-Cu from plain GHK
Confirm solvent compatibility Helps avoid precipitation or invalid research preparation
Use PPE Reduces contamination and exposure risk
Label every vial and aliquot Prevents mix-ups
Record concentration calculations Supports traceability
Use clean laboratory technique Reduces contamination risk
Follow institutional protocols Keeps handling consistent and auditable
Store according to documentation Helps protect compound integrity
Dispose of lab waste correctly Supports safety and compliance
Use research-use wording only Reduces misleading human-use interpretation

Never Do This

Never Why It Is Risky
Never use for self-injection Product is research use only
Never use as a skincare ingredient Product is not supplied as a cosmetic
Never apply topically Product is not supplied for topical use
Never sell or promote as an anti-ageing product Creates human-use and compliance risk
Never make wrinkle, collagen or skin-rejuvenation claims Not an approved or appropriate product claim
Never make hair growth claims Not an approved or appropriate product claim
Never make wound-healing or scar-treatment claims Not suitable for a research-use product page
Never assume GHK-Cu is the same as plain GHK Copper-complex status matters
Never assume purity without CoA Batch quality must be documented
Never assume solvent compatibility Copper complexes may behave differently from standard peptides
Never use a damaged or unlabelled vial Identity and integrity may be uncertain
Never leave prepared solutions unlabelled Creates traceability risk
Never rely on social media or cosmetic DIY protocols They may be inaccurate, unsafe or non-compliant

Other Reconstitution Amounts GHK-Cu 50mg

The table below is for concentration planning only. It does not represent dosage, injection quantity, topical-use quantity or cosmetic formulation guidance.

Total Vial Amount Diluent Volume Final Concentration
50mg 1mL 50mg/mL
50mg 2mL 25mg/mL
50mg 5mL 10mg/mL
50mg 10mL 5mg/mL
50mg 20mL 2.5mg/mL
50mg 25mL 2mg/mL
50mg 50mL 1mg/mL

Quick Concentration Example GHK-Cu 50mg

If a researcher adds 10mL of suitable research-grade diluent to a 50mg vial, the resulting concentration is 5mg/mL.

This calculation is for research concentration planning only. It is not a human or animal dosing example, topical-use example or cosmetic formulation instruction.

Common Research Questions GHK-Cu 50mg

What is GHK-Cu?

GHK-Cu is a copper peptide research compound made from the tripeptide glycyl-L-histidyl-L-lysine complexed with copper. It is studied in relation to extracellular matrix research, skin pathway models, wound-response research, tissue remodelling and copper biology.

Is GHK-Cu a peptide?

GHK-Cu is commonly described as a copper-bound peptide complex. The parent peptide GHK is a tripeptide made from glycine, histidine and lysine.

Is GHK-Cu the same as plain GHK?

No. GHK-Cu refers to the copper-complexed form, while GHK refers to the parent tripeptide. The CoA should be checked to confirm whether the product is GHK-Cu or a non-copper GHK product.

Why is GHK-Cu blue?

Copper peptide complexes are often associated with a blue colour due to copper coordination. The expected appearance should always be checked against supplier documentation and the Certificate of Analysis.

What pathway is GHK-Cu studied for?

GHK-Cu is commonly studied in relation to extracellular matrix remodelling, collagen-related pathways, dermal cell research, wound-response models, inflammatory pathway regulation and oxidative stress pathway research. Research reviews discuss GHK-Cu in relation to skin research, gene expression and regenerative pathway models.

Is GHK-Cu approved for skincare, anti-ageing or hair growth?

This research product is not approved or supplied for skincare, anti-ageing, wrinkle reduction, collagen boosting, hair growth, wound healing, topical application, injection or human use. It should be described only as a laboratory research product.

Is GHK-Cu the same as BPC-157?

No. GHK-Cu is a copper peptide complex, while BPC-157 is a stable gastric pentadecapeptide research peptide. They may both appear in tissue-response research discussions, but they are chemically different products.

Why is Certificate of Analysis important?

A Certificate of Analysis provides batch-level testing information. It helps researchers verify product identity, purity, copper complex form, salt form and quality documentation before use in a research setting.

Useful Resource Links GHK-Cu 50mg

Resource Why It Is Useful
PubChem GHK-Cu compound profile Useful background on GHK-Cu identity and compound listing.
PubChem Cu-GHK compound profile Useful background showing a separate Cu-GHK compound listing, reinforcing why CoA confirmation matters.
GHK-Cu regenerative and protective actions review Useful background on GHK-Cu, skin research, protective actions and gene expression mechanisms.

Research Use Only: GHK-Cu 50mg is supplied strictly for laboratory research purposes. It is not intended for human or animal consumption, injection, therapeutic use, cosmetic use, topical application, diagnostic use, skincare, anti-ageing, wrinkle reduction, collagen boosting, hair growth, wound healing, scar treatment, tissue repair, body enhancement or performance enhancement. Information on this page is provided for research education and product handling context only. Always follow applicable laws, institutional procedures, supplier documentation, SDS guidance and qualified laboratory protocols.