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For Research Use Only. Not for Use in diagnostic procedures.
This product is solely intended for research purposes as a chemical compound. Its designation permits its use exclusively for in vitro testing and laboratory experimentation. All information regarding this product provided on our website is purely educational. By law, any form of bodily introduction of this product into humans or animals is strictly prohibited. It should only be handled by professionals who are licensed and qualified. This product is neither a drug, food, nor cosmetic, and must not be misrepresented, misused, or mislabeled as such.
MOTS-c
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 |
Peptide Sciences | Liberty Peptides | |
Cost per milligram |
$3.15 - $3.75 |
$11.00 | $4.20 |
Purity |
99.87% |
98.6% | 99.15% |
Certified Endotoxin-safe |
Yes |
No | No |
Independently Tested |
Yes |
No | No |
Peptide Partners Manufacturer Id: WF03
Batch Id: YC20250807
Overview
(For educational purposes only)
MOTS-c is a recently discovered mitochondrial-derived peptide that has shown remarkable potential in regulating metabolism, enhancing physical performance, and potentially slowing aspects of aging. This 16-amino acid peptide, encoded by mitochondrial DNA, functions as a crucial signaling molecule between mitochondria and the cell nucleus, with wide-ranging effects on cellular metabolism and stress resistance. Research suggests MOTS-c could have significant therapeutic applications for age-related conditions including diabetes, obesity, and reduced physical capacity.
Origin and Structure of MOTS-c
MOTS-c (Mitochondrial Open Reading Frame of the 12S rRNA Type-C) is a 16-amino acid peptide encoded by the 12S rRNA region of the mitochondrial genome[1][2]. First discovered by Lee and colleagues in 2015, this peptide has a primary structure of Met-Arg-Trp-Gln-Glu-Met-Gly-Tyr-Ile-Phe-Tyr-Pro-Arg-Lys-Leu-Arg, with the first 11 amino acid residues being highly conserved across 14 species, indicating its evolutionary importance[1][3].
Unlike typical mitochondrial proteins, MOTS-c translation occurs exclusively in the cytoplasm rather than within mitochondria. This is because mitochondrial translation would result in tandem codons using the mitochondria-specific genetic code[1]. The peptide is widely expressed in numerous tissues, including the brain, heart, liver, skeletal muscle, testes, kidney, spleen, and intestines, suggesting its systemic importance[3].
Interestingly, MOTS-c is also present in plasma, functioning as a hormone-like signaling molecule, though its circulating levels have been observed to decrease with age—a finding that may have significant implications for age-related diseases[1][2].
Cellular Mechanism of Action
AICAR-AMPK Pathway Activation
MOTS-c primarily exerts its metabolic effects through the AICAR-AMPK signaling pathway[3]. This sophisticated mechanism begins with MOTS-c disrupting the folate-methionine cycle in cells, which impedes de novo purine synthesis. This metabolic disruption results in increased levels of 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR), an intermediate metabolite[3][2].
The accumulated AICAR then activates AMP-activated protein kinase (AMPK), which functions as a master regulator of cellular energy homeostasis[3][4]. Once activated, AMPK accelerates fatty acid oxidation through the phosphorylation of acetyl-CoA carboxylase (ACC), shifts cellular metabolism toward enhanced glucose uptake, and improves mitochondrial function[3].
Nuclear Translocation
Under conditions of metabolic stress, MOTS-c dynamically translocates from its typical location near mitochondria to the cell nucleus[1][5]. This nuclear migration allows MOTS-c to directly influence gene expression, particularly genes involved in stress resistance, protein homeostasis (proteostasis), and metabolic adaptation[5]. This remarkable ability to shuttle between cellular compartments enables MOTS-c to coordinate the mitochondrial-nuclear communication network essential for maintaining cellular resilience during metabolic challenges[2].
Physiological Functions and Benefits
Metabolic Regulation
MOTS-c demonstrates powerful effects on whole-body metabolism through several mechanisms:
1. Enhanced Glucose Metabolism: MOTS-c significantly improves glucose metabolism in skeletal muscle, increasing glucose uptake without stimulating insulin release, effectively functioning as an "exercise mimetic"[1][4].
2. Improved Insulin Sensitivity: Treatment with MOTS-c enhances insulin sensitivity, making it potentially valuable for addressing insulin resistance associated with aging and metabolic disorders[6][3].
3. Metabolic Flexibility: MOTS-c promotes metabolic flexibility—the ability to efficiently switch between different energy substrates (carbohydrates and fats) based on availability and demand[5][4]. This adaptability is crucial for maintaining metabolic health throughout aging.
4. Fat Utilization: Research shows MOTS-c increases the capacity for lipid utilization and fat oxidation, which may contribute to its effects on body composition and weight management[5][7].
Physical Performance Enhancement
One of the most striking benefits of MOTS-c is its ability to improve physical performance:
1. Increased Exercise Capacity: Studies in mice demonstrate that MOTS-c treatment significantly improves running endurance and performance across different age groups, from young to old mice[5].
2. Enhanced Power Output: MOTS-c-treated mice showed greater power output during exercise compared to control groups, indicating improved muscular efficiency[5].
3. Resistance to Fatigue: Treatment enabled higher percentages of mice to reach final running stages (highest speeds) in treadmill tests, suggesting enhanced resistance to fatigue[5].
4. Age-Dependent Performance Recovery: Perhaps most remarkably, MOTS-c treatment enabled old mice to outperform untreated middle-aged mice, suggesting not just rejuvenation but a more comprehensive physical reprogramming[5].
Anti-Aging Properties
MOTS-c demonstrates several mechanisms that may contribute to healthy aging:
1. NAD+ Elevation: MOTS-c elevates levels of NAD+, a critical metabolic cofactor that declines with age and is associated with longevity in various species[2].
2. Methionine Metabolism Restriction: The peptide influences methionine metabolism, a pathway where restriction has been shown to extend lifespan in mice by up to 45%[2].
3. Collagen Support: Research shows MOTS-c increases skin collagen by reducing inflammation, potentially slowing skin aging[2].
4. Reversal of Age-Related Metabolic Inflexibility: MOTS-c restores metabolic flexibility that typically declines with age, allowing for more efficient adaptation to changing energy demands[5].
Cellular Protection and Stress Resistance
MOTS-c significantly enhances cellular resilience against various stressors:
1. Metabolic Stress Protection: In vitro studies show MOTS-c protects cells from glucose restriction and serum deprivation, enhancing survival and recovery[5].
2. DNA Repair: Evidence suggests MOTS-c supports DNA repair mechanisms, crucial for limiting age-related cellular damage[6].
3. Autophagy Support: MOTS-c may enhance autophagy—the cellular "cleaning" process that removes damaged components—which declines with age[6].
4. Heat Shock Response: Gene expression studies reveal MOTS-c regulates heat shock proteins, which help maintain protein folding and stability during stress[5].
Potential Therapeutic Applications
Based on its diverse physiological effects, MOTS-c shows promise for treating various conditions:
Metabolic Disorders
1. Type 2 Diabetes: By improving insulin sensitivity and glucose metabolism, MOTS-c may help manage or prevent type 2 diabetes[1][6][3].
2. Obesity: Through its effects on metabolic flexibility, fat utilization, and body composition, MOTS-c could assist in weight management approaches[3][4][7].
Age-Related Conditions
1. Sarcopenia: The ability of MOTS-c to preserve muscle function could help address age-related muscle loss[5][2].
2. Cardiovascular Disease: Metabolic improvements from MOTS-c might reduce cardiovascular risk factors associated with aging[1][2].
3. Osteoporosis: Research indicates MOTS-c may promote bone metabolism, potentially benefiting those with osteoporosis[3][2].
4. Alzheimer's Disease: Early evidence suggests potential benefits for neurodegenerative conditions like Alzheimer's[2].
Performance Enhancement
While still experimental, MOTS-c's demonstrated effects on physical performance suggest potential applications for:
1. Exercise Intolerance: Conditions where physical activity is limited by metabolic factors[5].
2. Recovery from Deconditioning: Situations requiring accelerated recovery of physical capacity[5].
Current Research Evidence
Animal Studies
Multiple studies in mice have demonstrated significant effects of MOTS-c treatment:
1. Age-Diverse Performance Studies: MOTS-c treatment (15 mg/kg/day) for two weeks improved physical performance in mice of different ages (2, 12, 22, and 23.5 months)[5][2].
2. Metabolic Challenge Response: When facing metabolic stress from high-fat diets, MOTS-c-treated mice maintained better running performance and showed reduced fat accumulation[5].
3. Metabolic Flexibility Recovery: Old mice treated with MOTS-c recovered circadian metabolic patterns similar to younger mice, indicating restored metabolic flexibility[5].
4. Post-Exercise Metabolic Adaptation: Metabolomic analysis showed MOTS-c significantly regulated glycolysis and amino acid metabolism in skeletal muscle after exercise[5].
Cellular Studies
In vitro research has further illuminated MOTS-c's cellular mechanisms:
1. Stress Protection: MOTS-c treatment protected C2C12 myoblast cells from metabolic stress, improving survival approximately 2-fold under glucose restriction and serum deprivation[5].
2. Lipid Metabolism: Treatment increased cellular capacity to utilize lipids as fuel sources when glucose was limited[5].
3. Gene Expression: RNA sequencing revealed MOTS-c regulation of genes involved in heat shock response, protein folding, and metabolic adaptation[5].
Conclusion
MOTS-c represents a fascinating example of mitochondrial-nuclear communication with wide-ranging effects on metabolism, physical performance, and cellular resilience. As a mitochondrial-derived peptide that declines with age, MOTS-c supplementation shows promise for addressing multiple aspects of aging and metabolic dysfunction.
Current research suggests MOTS-c functions primarily through AMPK activation, promoting metabolic flexibility, enhancing physical performance, and improving cellular stress resistance. These effects position MOTS-c as a potential therapeutic for conditions including diabetes, obesity, sarcopenia, and other age-related disorders.
While most research remains in preclinical stages, the consistent benefits observed across multiple studies and the peptide's endogenous nature make MOTS-c a promising candidate for translation to human applications. Future research focusing on optimal dosing, delivery methods, and long-term effects will be crucial to realize the full therapeutic potential of this remarkable mitochondrial-encoded peptide.
⁂
1. https://pmc.ncbi.nlm.nih.gov/articles/PMC9905433/
2. https://pmc.ncbi.nlm.nih.gov/articles/PMC9570330/
3. https://pmc.ncbi.nlm.nih.gov/articles/PMC9866798/
4. https://www.transformyou.com/mots-c-peptide
5. https://www.nature.com/articles/s41467-020-20790-0
6. https://www.renewyouth.com/mots-c-a-potential-anti-aging-peptide/
Storage Instructions:
All of our manufacturing partners produce peptides using the Lyophilization (Freeze Drying) process, ensuring products maintain stability for shipping and storage for 6+ months.
Once peptides have been received, it is imperative that they are kept cold and away from light. If the peptides will be used immediately, or in the next several days, weeks or months, short-term refrigeration under 4°C (39°F) is generally acceptable. Lyophilized peptides are usually stable at room temperatures for several weeks or more, so if they will be utilized within weeks or months such storage is typically adequate.
However, for longer-term storage (several months to years) it is more preferable to store peptides in a freezer at -80°C (-112°F). When storing peptides for months or even years, freezing is optimal in order to preserve the peptide's stability.
Third-party testing
Peptide Partners is committed to providing high-purity peptides at wholesale prices by frequently auditing its manufacturing partners using third-party laboratories. Independent analysis is vital to ensuring the quality and authenticity of your research peptides. Never trust a supplier that doesn't submit to third-party testing. Never trust a certification that cannot be independently verified. All of the certificates that we provide can be validated on the third-party laboratory's website.
Each product description contains a Manufacturer ID corresponding to the producer of that product. The table below contains the most recent third-party analyses for all manufacturers and peptides listed on Peptide Partners.
Current Purity certifications
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| Peptide | Batch Id | Manufacturer | Date | Purity | Laboratory | |
| GLP-RT | RP20251001 | DF05 | 2025-10-13 | 99.86 | TrustPointe | View File |
| GLP-TRZ | TZ20250915 | DF05 | 2025-10-03 | 99.74% | TrustPointe | View File |
| Retatrutide | RP20250929 | VI32 | 2025-10-03 | 99.47% | TrustPointe | View File |
| Humanin | HP20250805 | WF03 | 2025-09-19 | 99.92% | BioRegen | View File |
| MOTS-c | YC20250807 | WF03 | 2025-09-19 | 99.87% | BioRegen | View File |
| DSIP | DS20250820 | SH07 | 2025-09-19 | 99.88% | BioRegen | View File |
| SS-31 | SY20250806 | WF03 | 2025-09-19 | 99.70% | BioRegen | View File |
| CJC/Ipamorelin | CI20250805 | WF03 | 2025-09-11 | 99.84% | TrustPointe | View File |
| BPC-157 | BP20250808 | WF03 | 2025-09-05 | 99.99% | TrustPointe | View File |
| Sermorelin | SM20250723 | WF03 | 2025-08-27 | 99.84% | BioRegen | View File |
| Tesamorelin | TS20250722 | WF03 | 2025-08-22 | 99.10% | TrustPointe | View File |
| CJC-1295 ND | CJ20250724 | WF03 | 2025-08-20 | 99.43% | TrustPointe | View File |
| Semaglutide | SM20250801 | EJ12 | 2025-08-20 | 99.34% | TrustPointe | View File |
| Ipamorelin | IP20250721 | WF03 | 2025-08-15 | 99.64% | TrustPointe | View File |
| GHK-Cu | CU20250717 | SH07 | 2025-08-09 | 99.73% | BioRegen | View File |
| Tirzepatide | TZ20250730 | EJ12 | 2025-08-08 | 99.41% | TrustPointe | View File |
| NAD+ | ND20250503 | SH07 | 2025-07-31 | 99.76% | BioRegen | View File |
| VIP | VP20250511 | SH07 | 2025-07-31 | 99.42% | BioRegen | View File |
| Retatrutide | CD20250708 | SH07 | 2025-07-25 | 99.42% | TrustPointe | View File |
| BPC/TB500 | BB20250630 | SH07 | 2025-07-17 | 99.52% | TrustPointe | View File |
| TB500 (TB4) | TB20250614 | SH07 | 2025-07-17 | 99.68% | TrustPointe | View File |
Current Endotoxin Certifications
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| Peptide | Batch Id | Manufacturer | Date | USP<85> Conformation | Laboratory | |
| Retatrutide | RP20251001 | DF05 | 2025-10-13 | Conforms | TrustPointe | View File |
| Tirzepatide | TZ20250915 | DF05 | 2025-10-03 | Conforms | TrustPointe | View File |
| Retatrutide | RP20250929 | VI32 | 2025-10-03 | Conforms | TrustPointe | View File |
| Humanin | HP20250805 | WF03 | 2025-09-19 | Conforms | BioRegen | View File |
| MOTS-c | YC20250807 | WF03 | 2025-09-19 | Conforms | BioRegen | View File |
| DSIP | DS20250820 | SH07 | 2025-09-19 | Conforms | BioRegen | View File |
| SS-31 | SY20250806 | WF03 | 2025-09-19 | Conforms | BioRegen | View File |
| CJC/Ipamorelin | CI20250805 | WF03 | 2025-09-03 | Conforms | TrustPointe | View File |
| BPC-157 | BP20250808 | WF03 | 2025-09-03 | Conforms | TrustPointe | View File |
| Bacteriostatic Water | BAC20250807 | SH07 | 2025-08-27 | Conforms | BioRegen | View File |
| Tesamorelin | TS20250722 | WF03 | 2025-08-20 | Conforms | TrustPointe | View File |
| CJC-1295 ND | CJ20250724 | WF03 | 2025-08-20 | Conforms | TrustPointe | View File |
| Sermorelin | SM20250723 | WF03 | 2025-08-20 | Conforms | TrustPointe | View File |
| Semaglutide | SM20250801 | EJ12 | 2025-08-20 | Conforms | TrustPointe | View File |
| Ipamorelin | IP20250721 | WF03 | 2025-08-11 | Conforms | TrustPointe | View File |
| GHK-Cu | CU20250717 | SH07 | 2025-08-08 | Conforms | TrustPointe | View File |
| Tirzepatide | TZ20250730 | EJ12 | 2025-08-04 | Conforms | TrustPointe | View File |
| NAD+ | ND20250503 | SH07 | 2025-07-29 | Conforms | TrustPointe | View File |
| VIP | VP20250511 | SH07 | 2025-07-29 | Conforms | TrustPointe | View File |
| Retatrutide | CD20250708 | SH07 | 2025-07-24 | Conforms | TrustPointe | View File |
| BPC/TB500 | BB20250630 | SH07 | 2025-07-17 | Conforms | TrustPointe | View File |
| TB500 (TB4) | TB20250614 | SH07 | 2025-07-17 | Conforms | TrustPointe | View File |
Current Sterility Certifications
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| Product | Batch Id | Manufacturer | Date | USP<71> Pass/Fail | Laboratory | |
| Bacteriostatic Water | BAC20250807 | SH07 | 2025-09-09 | Pass | TrustPointe | View File |
| Meta-Z | MZR20250713 | DF05 | 2025-08-26 | Pass | TrustPointe | View File |
Verifiable certificates
When obtaining research peptides, it is essential to validate the authenticity of the Certificate of Analysis (COA). Certificate fraud runs rampant throughout the research peptide supply community. The two most common forms are doctored images and stolen certificates. You can check for these two by making sure the third-party laboratory's website shows that the certificate belongs to the supplier and the values haven't been doctored. TrustPointe Analytics provides a few simple rules for verification:
When reviewing a COA, the first thing that should be done is to look for a way to verify that the COA is legitimate – either a link, key, or QR Code. That should take you to the laboratory’s website, not a third party website. If you follow the link and it does not take you to the laboratory’s website (URL), it is likely falsified. Finally, verify that the information on the COA provided matches the COA on the laboratory’s website. People who falsify COAs cannot access the laboratory’s website, so they are unable to alter the original COA.
Beware of fraudulent laboratories
Not only must one remain vigilant about potentially fraudulent certificates, one must also be aware that there are third-party laboratories whose results cannot be considered reliable or scientifically valid. Unfortunately, there is significant evidence to suggest that one of the most popular third-party testing labs does not use scientifically sound methodologies and, in some cases, has fabricated results. There isn't an easy remedy for this problem, but when labs are particularly bad, there tend to be a lot of discussion threads on various social platforms.
Interpreting Endotoxin Results (via TrustPointe)
Our friends at TrustPointe have provided the following detailed explanation to help interpret the results of the endotoxin testing.
We use the Charles River Endosafe PTS system to test for bacterial endotoxins following USP <85> guidelines:
- USP <85> Bacterial Endotoxin Result: <x.xx EU/mL
Because it’s reported as “<x.xx” this indicates the test did not detect endotoxin above the detection limit of the cartridge.- If a result is above the limit of detection of the cartridge, it will be reported as a number (without the "<").
The following are suitability parameters that verify the system was working properly and the sample prep dilution is appropriate for accurate results. Peptides often interfere with endotoxin detection due to their tendency to bind or mask endotoxins, which can lead to inaccurate low results. To overcome this, samples are typically tested at a large dilution to reduce matrix interference and ensure reliable recovery and detection in compliance with USP <85>. If the dilution is not correct, the run will fail suitability and we'll need to adjust the dilution to ensure accurate results. We provide the suitability data to customers for transparency and so they can be confident in the results.
USP <85> Sample CV %:
- CV stands for coefficient of variation, a measure of repeatability.
- For our lab, CV has to be <25% or the result to be considered valid
USP <85> Spike CV %:
- This refers to the precision of the positive control (spiked sample).
- Again, for our lab CV has to be <25% or the result to be considered valid
USP <85> Spike Recovery
- This tells us how much of the known endotoxin spike was recovered from your sample.
- The acceptable range is 50–200% per USP <85>
NOT SUITABLE FOR HUMAN CONSUMPTION – INTENDED FOR RESEARCH ONLY
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NOTICE: All information provided above is strictly intended for educational and informational purposes. Our products are designed for research use solely and are not approved for human consumption. Please refrain from any form of ingestion.
By making a purchase from Peptide Partners, you acknowledge that you are acquiring Research Chemicals. Our products are exclusively intended for laboratory research purposes.
It is imperative that only qualified and licensed professionals handle this product. Under no circumstances should it be utilized as a drug, agricultural or pesticide product, food additive, or household chemical. Misrepresentation of this product for such purposes is strictly prohibited by law. All content on our website is provided for educational use exclusively. Any form of introduction into the human or animal body is illegal.