• TRUSTED AU LABORATORY
  • 26 Mark Rd. Elizabeth South, SA - 5112
  • Same day delivery

Enter your order number to check shipment

MOTS-C 10mg research peptide Australia

MOTS-C 10mg

MOTS-C 10mg 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 MOTS-C 10mg

MOTS-C 10mg is a synthetic research peptide studied in relation to mitochondrial-derived peptide research, cellular energy signalling, AMPK pathway models, metabolic stress response and exercise-adaptation research contexts.

MOTS-C stands for mitochondrial open reading frame of the 12S rRNA type-c. Research literature describes MOTS-C as a peptide encoded by a short open reading frame within the mitochondrial 12S rRNA gene, with research interest around stress response, exercise response and metabolic pathway signalling.

This product is supplied for laboratory research use only. It is not a medicine, supplement, energy product, endurance product, fat loss product, anti-ageing product, longevity product, metabolic treatment or injectable product for human use.

Product Overview MOTS-C 10mg

Product Detail Information
Product name MOTS-C
Full research name Mitochondrial open reading frame of the 12S rRNA type-c
Common research names MOTS-c, MDP-16, mitochondrial-derived peptide
Size 10mg
Product type Research peptide
Research category Mitochondrial Research / Metabolic Research
Common research interest AMPK signalling, cellular energy metabolism, mitochondrial-derived peptide biology
Peptide type 16-amino-acid mitochondrial-derived peptide
Molecular formula C101H152N28O22S2
Genome context Encoded within mitochondrial 12S rRNA region
Form Lyophilised powder
Intended use Laboratory research only
Human use Not for human consumption, administration, performance enhancement or injection
Documentation Certificate of Analysis should be checked before use

What Is MOTS-C Made Up Of?

Component Research Class General Research Role
MOTS-C Mitochondrial-derived peptide Studied in relation to metabolic signalling and stress-adaptation pathways
16-amino-acid peptide structure Short bioactive peptide Used in research models involving mitochondrial-derived signalling
MT-RNR1 / 12S rRNA context Mitochondrial genome region MOTS-C is encoded within the mitochondrial 12S rRNA region
AMPK pathway interest Cellular energy pathway Studied in relation to energy stress and metabolic adaptation
Molecular formula C101H152N28O22S2 Listed for MOTS-C compound references
Lyophilised peptide preparation Freeze-dried peptide format Supports stability before reconstitution when stored correctly

Product identity, sequence, purity, salt form and batch information should always be confirmed through supplier documentation and the Certificate of Analysis. Researchers should not rely on product name alone when confirming peptide identity.

How MOTS-C Works in Research

MOTS-C is studied as a mitochondrial-derived peptide involved in metabolic stress-response signalling. In research models, MOTS-C is commonly examined for its relationship with AMPK activation, cellular energy regulation, glucose metabolism, mitochondrial function and exercise-adaptation pathways.

A review in Journal of Translational Medicine describes MOTS-C as being expressed in response to stress or exercise and translocating to the nucleus, where it can regulate stress-adaptation-related genes. The same review discusses the Folate-AICAR-AMPK pathway as a key mechanism in MOTS-C research.

This should be understood as laboratory, preclinical and translational research context only. It should not be used as a claim that a research-use MOTS-C 10mg vial has proven human benefits.

Research Mechanism Summary MOTS-C 10mg

Research Area MOTS-C
Main research category Mitochondrial-derived peptide research
Full name Mitochondrial open reading frame of the 12S rRNA type-c
Peptide length 16 amino acids
Genome context Encoded within mitochondrial 12S rRNA region
Common pathway interest AMPK and cellular energy signalling
Metabolic interest Glucose metabolism, energy homeostasis and stress-adaptation models
Exercise research interest Exercise-adaptation and metabolic stress-response models
Evidence limitation Mostly preclinical, laboratory and early translational research
Product limitation Research use only, not approved for human use

MOTS-C vs Other Mitochondrial Research Peptides

Feature MOTS-C Other Mitochondrial Research Peptides
Research class Mitochondrial-derived peptide May include mitochondrial-derived or mitochondria-targeted peptides
Main research interest AMPK, cellular energy and metabolic stress-response signalling Varies depending on peptide target and structure
Genome context Encoded within mitochondrial 12S rRNA region Not always mitochondrial genome-encoded
Common research model Metabolic adaptation, glucose metabolism and exercise-response models Oxidative stress, mitochondrial membrane or cellular protection models
Product positioning Mitochondrial-derived research peptide Mitochondrial research peptide or compound
Human-use claim Not appropriate for this research product Not appropriate for research-use products

MOTS-C vs SS-31

Feature MOTS-C SS-31
Research class Mitochondrial-derived peptide Mitochondria-targeted tetrapeptide
Common research name Mitochondrial open reading frame of the 12S rRNA type-c Elamipretide
Main research focus AMPK, cellular energy and metabolic stress-response research Cardiolipin and inner mitochondrial membrane research
Structure 16-amino-acid mitochondrial-derived peptide Synthetic tetrapeptide
Common SEO risk Being marketed as energy, endurance or anti-ageing Being marketed as mitochondrial support, heart health or anti-ageing
Safer positioning Mitochondrial-derived peptide research Cardiolipin and mitochondrial membrane research peptide

MOTS-C vs AOD-9604

Feature MOTS-C AOD-9604
Research class Mitochondrial-derived peptide hGH fragment research peptide
Main research pathway AMPK, mitochondrial signalling and cellular energy research Human growth hormone fragment and lipolysis pathway research
Common research interest Metabolic stress response and energy homeostasis Adipocyte and lipolysis pathway models
Structure 16-amino-acid mitochondrial-derived peptide Modified hGH fragment peptide
Common SEO risk Being marketed as energy, endurance or anti-ageing peptide Being marketed as a fat loss peptide
Safer positioning Mitochondrial-derived peptide research hGH fragment research peptide

MOTS-C 10mg vs Other MOTS-C Strengths

Strength Product Page Positioning
MOTS-C 10mg Lower-strength research vial for protocol-specific concentration planning
MOTS-C 20mg Standard or mid-strength research vial for mitochondrial pathway research
MOTS-C 40mg Higher-strength research vial for larger protocol-specific concentration planning

MOTS-C 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 MOTS-C 10mg

Common Online Claim Safer Research-Use Wording
More energy Studied in relation to cellular energy signalling and AMPK pathway research
Exercise mimetic Studied in exercise-adaptation and metabolic stress-response research models
Fat loss Better framed as energy homeostasis and metabolic pathway research
Insulin sensitivity Studied in metabolic research models, not an approved product claim
Anti-ageing Not an approved or appropriate product claim
Longevity Better framed as ageing-related pathway research, not human benefit wording
Mitochondrial support Better framed as mitochondrial-derived peptide signalling research
Performance enhancement Not an approved or appropriate product claim

Important Human-Use Disclaimer MOTS-C 10mg

MOTS-C 10mg is not intended to diagnose, treat, cure or prevent any disease. It is not supplied for energy enhancement, endurance, exercise replacement, fat loss, weight loss, insulin sensitivity, diabetes management, anti-ageing, longevity, recovery, bodybuilding, metabolic health, performance enhancement or general wellness use.

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

Recommended Dilution for Research Use MOTS-C 10mg

There is no universal recommended dilution for MOTS-C 10mg. Dilution depends on the research protocol, required working concentration, assay design, solvent compatibility, storage method and validated laboratory procedure.

For research concentration planning only, the basic formula is:

Total peptide amount divided by diluent volume equals final concentration.

Example Research Concentration Table MOTS-C 10mg

Diluent Added to 10mg Vial Final Concentration
1mL 10mg/mL
2mL 5mg/mL
2.5mL 4mg/mL
3mL 3.33mg/mL
4mL 2.5mg/mL
5mL 2mg/mL
10mL 1mg/mL

These are research concentration examples only. They are not human dosing instructions and must not be used to calculate injection quantities.

Before You Start: What You’ll Need

Before handling MOTS-C 10mg in a laboratory setting, make sure all materials, documentation and clean handling conditions are prepared.

Item Purpose
Product vial Contains lyophilised MOTS-C peptide
Certificate of Analysis Confirms batch-level testing information
Sequence or identity confirmation Helps verify the product is MOTS-C
Suitable research-grade diluent Used to prepare a working research solution
Sterile lab consumables Helps reduce 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
Cold 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 peptide identity has been checked against supplier documentation.
  • 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 required working concentration has already been defined.
  • The product is clearly marked as research use only.
  • Any energy, endurance, fat loss, anti-ageing or longevity wording has been removed from customer-facing use instructions.
  • Any research discussion has been kept separate from product-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 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: 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 4: 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 5: 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 6: Inspect the Solution

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

Step 7: Label the Reconstituted Solution

Label the vial or aliquots with the product name, concentration, diluent used, date prepared, batch number and researcher initials.

Step 8: Store According to Protocol

Place the reconstituted solution into the required storage condition as soon as possible. Avoid unnecessary warming, cooling or repeated freeze-thaw cycles.

If It Won’t Dissolve

Some lyophilised peptide products may take time to fully hydrate. Dissolution should always be handled gently and according to laboratory protocol.

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 Continue gentle swirling
Cloudy solution Possible incompatibility or contamination Stop and check documentation
Foaming Too much agitation Let the solution settle and avoid shaking
Colour change Possible degradation or contamination Do not continue without supplier guidance
Product identity unclear Possible peptide mix-up 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 or alcohols without validated compatibility.
  • Using a vial that appears contaminated.
  • Using a vial that has changed colour.
  • Assuming cloudiness is normal.
  • Continuing with a solution that does not match expected appearance.
  • Copying reconstitution instructions from social media protocols.
  • Preparing a high-concentration solution without checking protocol compatibility.

Storage Before Reconstitution MOTS-C 10mg

Storage Factor Guidance
Product form Lyophilised powder
Storage condition Follow supplier label and Certificate of Analysis
Light exposure Protect from unnecessary light exposure
Moisture exposure Keep sealed until use
Temperature changes Avoid repeated temperature cycling
Handling Minimise unnecessary opening or vial puncture
Variant control Store and label separately from other mitochondrial research peptides

Storage After Reconstitution MOTS-C 10mg

Storage Factor Guidance
Storage condition Follow validated research protocol
Labelling Record product name, concentration, date, diluent and batch number
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

Peptides may be sensitive to temperature, light, pH, agitation and contamination. Storage conditions should be confirmed through supplier documentation or the laboratory’s validated method.

Drawing and Injecting Dose MOTS-C 10mg

This page does not provide human dosing, injection instructions, injection schedules or administration guidance.

MOTS-C 10mg 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 MOTS-C 10mg

Planning Item What to Record
Final concentration Total peptide 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
Peptide identity Confirmation that the product is MOTS-C
Storage location Fridge, freezer 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 10mg vial strength matches the approved research protocol

Safety and Common Mistakes MOTS-C 10mg

Correct handling is important for research consistency, contamination control and product traceability. Most mistakes occur when products are not labelled clearly, concentration calculations are not recorded or storage conditions are not followed.

Because MOTS-C is commonly discussed online in relation to mitochondrial support, energy, exercise adaptation and anti-ageing, product pages should avoid wording that could be interpreted as encouraging human performance enhancement, self-injection, longevity use or metabolic treatment.

Always Do This

Always Why It Matters
Check the Certificate of Analysis Confirms batch-level information
Confirm peptide identity Helps verify product accuracy
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 peptide integrity
Dispose of lab waste correctly Supports safety and compliance
Use research-use wording only Reduces misleading human-use interpretation
Clearly separate research pathways from human benefit claims Avoids unsafe or misleading product positioning
Clearly separate each strength variant Reduces product confusion and SEO cannibalisation

Never Do This

Never Why It Is Risky
Never use for self-injection Product is research use only
Never sell or promote as an energy product Creates human-use and compliance risk
Never make endurance or performance claims Not an approved or appropriate product claim
Never make anti-ageing or longevity claims Not an approved or appropriate product claim
Never describe it as an exercise replacement Misleading and not appropriate for research-use material
Never make diabetes or insulin-sensitivity treatment claims Not an approved or appropriate product claim
Never assume purity without CoA Batch quality must be documented
Never use a damaged or unlabelled vial Identity and sterility may be uncertain
Never shake aggressively May affect peptide integrity
Never use random solvents May damage the peptide or alter research results
Never leave reconstituted product unlabelled Creates traceability risk
Never rely on social media protocols They may be inaccurate, unsafe or non-compliant
Never reuse generic content from another MOTS-C strength without changing the strength-specific details This can create duplicate content and poor SEO clarity

Other Reconstitution Amounts MOTS-C 10mg

The table below is for concentration planning only. It does not represent dosage, injection quantity or recommended administration.

Total Vial Amount Diluent Volume Final Concentration
10mg 1mL 10mg/mL
10mg 2mL 5mg/mL
10mg 2.5mL 4mg/mL
10mg 3mL 3.33mg/mL
10mg 4mL 2.5mg/mL
10mg 5mL 2mg/mL
10mg 10mL 1mg/mL

Quick Concentration Example MOTS-C 10mg

If a researcher adds 2mL of suitable research-grade diluent to a 10mg vial, the resulting concentration is 5mg/mL.

This calculation is for research concentration planning only. It is not a human or animal dosing example.

Common Research Questions MOTS-C 10mg

What is MOTS-C?

MOTS-C is a mitochondrial-derived research peptide. Its full name is mitochondrial open reading frame of the 12S rRNA type-c. It is studied in relation to mitochondrial-derived peptide signalling, AMPK pathway research, cellular energy metabolism and metabolic stress-response models.

Is MOTS-C a mitochondrial peptide?

Yes. MOTS-C is commonly described as a mitochondrial-derived peptide because it is encoded by a short open reading frame within the mitochondrial 12S rRNA region.

What pathway is MOTS-C studied for?

MOTS-C is commonly studied in relation to AMPK signalling, cellular energy regulation, glucose metabolism, metabolic stress response and exercise-adaptation research. Reviews describe AMPK-related mechanisms as central to MOTS-C pathway research.

Is MOTS-C approved for energy, performance or anti-ageing?

No. This research product is not approved or supplied for energy enhancement, endurance, performance, anti-ageing, longevity, fat loss, metabolic treatment or human use. It should be described only as a laboratory research product.

Is MOTS-C the same as SS-31?

No. MOTS-C is a mitochondrial-derived peptide studied in AMPK and cellular energy pathway research. SS-31, also known as elamipretide, is a mitochondria-targeted tetrapeptide commonly discussed in relation to cardiolipin and inner mitochondrial membrane research.

Is MOTS-C the same as AOD-9604 or Tirzepatide?

No. MOTS-C is a mitochondrial-derived peptide studied in AMPK and cellular energy pathway research. AOD-9604 is an hGH fragment research peptide, while Tirzepatide is a dual GIP and GLP-1 receptor agonist research peptide. These products belong to different research classes.

Is MOTS-C 10mg different from MOTS-C 20mg or 40mg?

The active research peptide is the same product type, but the total vial content is different. The 10mg vial allows different concentration planning for qualified research settings. It should be treated as a strength variant, not a separate therapeutic claim.

Should MOTS-C strengths be separate product pages?

They can be separate pages if each strength has a unique title, meta description, slug, concentration table and internal linking. If the content is mostly identical, a variable product structure may be better for SEO.

Why is Certificate of Analysis important?

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

Useful Resource Links MOTS-C 10mg

Resource Why It Is Useful
MOTS-C mitochondrial-derived peptide review Useful background on MOTS-C, AMPK signalling, stress response and metabolic pathway research.
MOTS-C 12S rRNA encoding overview Useful background on MOTS-C as a peptide encoded in the mitochondrial 12S rRNA region.
Journal of Translational Medicine MOTS-C review Useful source for MOTS-C, the Folate-AICAR-AMPK pathway and stress-adaptation research context.

Research Use Only: MOTS-C 10mg is supplied strictly for laboratory research purposes. It is not intended for human or animal consumption, injection, therapeutic use, cosmetic use, diagnostic use, energy enhancement, endurance, exercise replacement, fat loss, weight loss, insulin sensitivity, diabetes management, anti-ageing, longevity, bodybuilding, 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 and qualified laboratory protocols.