| Drug Class: |
Mitochondrial-derived peptide (MDP) research compound |
| Molecular Formula: |
C101H152N28O22S2 |
| Molecular Weight: |
~2174.6 Da |
| Form: |
Lyophilized peptide for injection (vial) |
| Purity: |
Not specified (typically ≥98% peptide purity for research-grade synthesis) |
| Sequence: |
MRWQEMGYIFYPRKLR (16-amino-acid mitochondrial-derived peptide) |
| Brand: |
Axiolabs |
| Substances: |
MOTS-c (Mitochondrial Open Reading Frame of the 12S rRNA-c) |
| Concentration: |
10mg |
Product Disclaimer: Research Purposes Only
This product is intended strictly for laboratory research and in vitro analysis. It is not approved for human or animal use. Any form of internal administration is prohibited by law. Handling should be limited to qualified and licensed professionals. This item is not classified as a pharmaceutical, dietary supplement, or cosmetic product. For educational and scientific research use only.
MOTS-c 10mg – Mitochondrial-Derived Peptide Research Compound by Axiolabs
Introduction and Overview
MOTS-c is a mitochondrial-derived peptide studied in the context of cellular metabolism, mitochondrial signaling, and adaptive stress-response pathways. Encoded within mitochondrial DNA, MOTS-c has become a subject of scientific investigation due to its role in intracellular communication systems associated with energy regulation and metabolic adaptation mechanisms.
In laboratory and preclinical environments, researchers investigate MOTS-c for its interaction with signaling pathways linked to mitochondrial homeostasis, nutrient sensing, and transcriptional regulation. Experimental models involving mitochondrial peptides are frequently used to analyze how cellular systems respond to metabolic stress, energetic fluctuations, and molecular signaling integration.
MOTS-c discussed within this category is strictly intended for research purposes only. It is not approved for human consumption, therapeutic application, or clinical use.
Biological Relevance
Mitochondrial Signaling and Cellular Energy Regulation
MOTS-c is studied for its role in mitochondria-to-nucleus communication pathways, often referred to as retrograde signaling. Mitochondrial-derived peptides are investigated for their influence on intracellular signaling systems involved in cellular adaptation and energy homeostasis.
Key pathways commonly examined include:
- AMPK signaling – associated with cellular energy sensing and metabolic adaptation
- mTOR pathways – involved in nutrient-responsive signaling and protein regulation
- FOXO transcription factors – linked to stress-response signaling systems
- Insulin-related signaling cascades – associated with metabolic communication pathways
These pathways are central to studies involving mitochondrial biology and systems-level metabolic regulation.
Metabolic and Adaptive Stress Research
Experimental investigations involving MOTS-c frequently focus on molecular mechanisms related to:
- Mitochondrial adaptation signaling
- Cellular stress-response pathways
- Glucose transport-associated signaling
- Oxidative metabolism communication systems
- Nutrient-sensing regulatory networks
These research areas are closely connected to metabolic research and longevity research.
Nuclear-Mitochondrial Communication
MOTS-c is also investigated for its role in transcriptional signaling between mitochondrial and nuclear systems. Researchers analyze how mitochondrial peptides influence gene expression, intracellular regulatory pathways, and cellular adaptation processes under controlled experimental conditions.
This field overlaps with endocrine research and neurocognitive research, particularly where metabolic signaling intersects with neuroendocrine communication systems.
Research Applications and Experimental Investigation
Mitochondrial Function and Bioenergetics Models
MOTS-c is commonly utilized in laboratory models designed to examine mitochondrial signaling behavior, ATP-related metabolic pathways, and adaptive cellular communication systems.
Signal Transduction and Transcriptional Regulation Studies
Researchers investigate how mitochondrial-derived peptides influence kinase activation, transcription factor signaling, and intracellular pathway coordination associated with metabolic regulation.
Cellular Stress and Adaptation Research
Experimental systems involving MOTS-c often focus on molecular responses to oxidative signaling, nutrient fluctuations, and mitochondrial stress-related communication pathways.
Internal and External Research Connections
MOTS-c-related research intersects with several scientific disciplines. In cardiovascular research, mitochondrial signaling systems are studied in relation to endothelial metabolism and vascular cellular communication. In inflammation research, researchers examine how metabolic stress pathways interact with cytokine-associated signaling systems.
Additional overlap exists with immune support research, which investigates immunometabolic communication pathways, and musculoskeletal research, where mitochondrial regulation is studied in relation to structural and cellular energy systems.
Researchers commonly access peer-reviewed literature through scientific databases including PubMed, the NCBI platform, and publications from the National Institutes of Health.
Product Information
Compound Details
- Product Title: MOTS-c
- Active Substance: MOTS-c
- Concentration: 10mg
- Pack Size: Vial
- Manufacturer: Axiolabs
Compliance and Disclaimer
MOTS-c is strictly intended for laboratory and preclinical research purposes only. This compound is not approved for human consumption, diagnostic procedures, or therapeutic use by regulatory authorities including the U.S. Food and Drug Administration.
No statements regarding efficacy, safety, or medical outcomes are made or implied. Researchers handling mitochondrial-derived peptides must comply with institutional biosafety standards, laboratory handling procedures, and applicable regulatory requirements.
Frequently Asked Questions
What is MOTS-c?
MOTS-c is a mitochondrial-derived peptide studied in laboratory settings for its role in cellular metabolism, mitochondrial signaling, and adaptive stress-response pathways.
Which pathways are commonly investigated with MOTS-c?
Research frequently focuses on AMPK signaling, mTOR pathways, FOXO transcription systems, mitochondrial communication pathways, and metabolic stress-response signaling.
Is MOTS-c approved for human use?
No. MOTS-c referenced here is strictly for research purposes only and is not approved for therapeutic or clinical applications.
Which scientific disciplines investigate mitochondrial peptides?
Relevant fields include metabolic research, longevity research, cardiovascular research, and endocrine research.
Where can researchers access scientific literature related to MOTS-c?
Peer-reviewed literature is available through PubMed, NCBI, and institutional resources from the NIH.
References
PubMed – MOTS-c and Mitochondrial Signaling Research
NCBI – Mitochondrial Function and Cellular Metabolism
NCBI – Cellular Signal Transduction Pathways
NIH – Mitochondrial Biology and Metabolic Research Resources
FDA – Research Compound Regulatory Guidance
WHO – Biomedical Laboratory Standards and Scientific Guidance
MOTS-c – FAQ
✔️ What is MOTS-c?
MOTS-c is a mitochondrial-derived peptide studied for its role in cellular energy regulation, metabolic balance, and endurance support.
✔️ How does MOTS-c work in the body?
It helps regulate mitochondrial function, improving how cells use glucose and fatty acids for energy production.
✔️ What are the main research effects of MOTS-c?
Commonly studied effects include enhanced endurance, improved metabolic efficiency, better insulin sensitivity, and increased energy utilization.
✔️ Why is MOTS-c linked to metabolism?
Because it originates from the mitochondrial genome, it plays a key role in metabolic adaptation and energy homeostasis.
✔️ How should MOTS-c be stored?
Store the MOTS-c vial in a refrigerator at 2–8°C (36–46°F) and protect it from heat, sunlight, and moisture to maintain stability and potency.
✔️ What happens after reconstitution?
Once mixed with sterile bacteriostatic water, it should be refrigerated and used within the recommended timeframe to preserve effectiveness.
✔️ Is MOTS-c used for performance research?
Yes, it is widely studied for its potential role in physical endurance, energy efficiency, and metabolic adaptation under stress conditions.
✔️ Can MOTS-c support fat metabolism?
Research suggests it may enhance fat utilization and glucose metabolism, supporting improved energy balance and body composition regulation.
✔️ Is MOTS-c safe?
MOTS-c is a research peptide, and safety data in humans is still limited, requiring use in a controlled research environment.
✔️ Are there side effects of MOTS-c?
Reported effects may include mild fatigue, temporary injection site irritation, or subtle metabolic changes during early exposure.
✔️ How is MOTS-c typically administered?
It is commonly used via subcutaneous injection, depending on research protocols and study design.
✔️ Where can I buy authentic MOTS-c?
Always source from trusted suppliers such as verified peptide vendors or reputable research chemical distributors to ensure purity, authenticity, and quality control.
MOTS-c – Storage & Safety Guidelines
Protect Mitochondrial Peptide Integrity
To preserve the full metabolic and cellular performance potential of MOTS-c, store the vial in a cool, dry, and dark environment, away from heat sources, humidity, and direct light exposure. Prior to reconstitution, stable room-temperature storage is acceptable under controlled conditions. Once prepared, the solution must be kept refrigerated at 2–8°C (36–46°F) to maintain peptide stability, mitochondrial signaling activity, and structural integrity. Avoid repeated freeze–thaw cycles, as they can significantly reduce biological potency and functional efficiency.
Safe Handling & Preparation Standards
Always handle MOTS-c peptide using sterile syringes, alcohol swabs, and disposable gloves to minimize contamination risks. Do not use the solution if it appears cloudy, discolored, or contains particulate matter. Follow recommended usage protocols and seek guidance from a qualified professional when necessary. Keep the vial securely stored away from children and pets, and ensure proper medical waste disposal of any unused material.
Best Practices for Stability & Longevity
- Always verify the expiration date before use to ensure product safety and reliability.
- Store in the original vial and packaging to reduce exposure to oxidative and light-induced degradation.
- Handle gently—avoid shaking to preserve peptide folding and mitochondrial activity support.
Why Proper Storage Matters
Correct storage and safety practices ensure that MOTS-c maintains its full mitochondrial optimization and metabolic signaling potential. Proper handling preserves molecular stability, dosing accuracy, and user safety, ensuring consistent performance from every vial of this advanced mitochondrial-derived peptide compound.