MOTS-C – Aliquot, 10mg
Data Sheet
| Application | Activates Folate-AICAR-AMPK pathway |
| CAS | 1627580-64-6 |
| Molar Mass | 2174.6 g/mol |
| Chemical Formula | C101H152N28O22S2 |
| Amino Acid Sequence | MRWQEMGYIFYPRKLR |
| Synonyms | Mots-c, 1627580-64-6, UNII-A5CV6JFB78, MOTS-c (human) (trifluoroacetate salt), A5CV6JFB78, Mitochondria-derived peptide mots-c, EX-A6267, HY-P2048, DA-65618, CS-0107608, Met-Arg-Trp-Gln-Glu-Met-Gly-Tyr-Ile-Phe-Tyr-Pro-Arg-Lys-Leu-Arg |
| Storage | Store at ≤4°C, tightly sealed, away from heat, light and moisture. |
| Solubility | Soluble in Water |
| Organoleptic Profile | Solid, white powder in 3mL glass aliquot |
| Composition | Each aliquot contains MOTS-c |
| Specification | MOTS-c content (per aliquot): MOTS-c 10mg ±10% |
| Terms | This material is sold for laboratory research use only. Terms of sale apply. Not for human consumption, nor medical, veterinary, or household uses. Please familiarize yourself with our Terms & Conditions prior to ordering. |
Mitochondrial-Derived Peptide for Metabolic and Longevity Research
MOTS-C is a research-grade mitochondrial-derived peptide widely studied for its potential relevance in metabolic regulation pathways, mitochondrial signaling research, cellular resilience biology, and longevity investigations. As an endogenous peptide of significant interest in metabolic and aging science, MOTS-C has attracted scientific attention in models involving energy homeostasis, stress adaptation pathways, and mitochondrial-nuclear signaling mechanisms.
Researchers have investigated MOTS-C in studies involving peptide-mediated metabolic signaling, AMPK-associated pathways, mitochondrial stress response research, and age-associated cellular resilience mechanisms. Its investigational profile has made it a notable compound in advanced peptide and longevity science.
Supplied as a laboratory-grade aliquot for analytical and research applications.
Common Research Areas
- Mitochondrial Signaling Research
- Metabolic Regulation Studies
- Cellular Resilience Investigation
- Longevity and Healthy Aging Models
- Peptide Biology Research
How MOTS-C Works
MOTS-C has been studied for its potential interaction with pathways associated with mitochondrial signaling, metabolic regulation, and cellular stress adaptation. Researchers have explored its relevance in models involving AMPK-associated mechanisms, energy balance pathways, and peptide-mediated resilience research.
Its endogenous peptide profile has made it a recurring subject in advanced longevity and metabolic research.
Research Overview
MOTS-C has been investigated across a range of research models involving metabolism, mitochondrial pathways, and cellular resilience signaling.
Areas of scientific interest include:
- Mitochondrial pathway studies
- Metabolic signaling investigations
- Cellular resilience research models
- Healthy aging mechanism studies
- Peptide longevity pathway research
Its broad research relevance continues to make it a notable compound in peptide science.
MOTS-C vs Related Compounds
MOTS-C vs Humanin
MOTS-C is often researched in mitochondrial metabolic signaling models, while Humanin is commonly investigated in cytoprotective mitochondrial peptide pathways.
MOTS-C vs AICAR
AICAR has drawn interest in AMPK-associated investigations, whereas MOTS-C is more strongly associated with mitochondrial-derived peptide signaling research.
Frequently Asked Questions
What is MOTS-C studied for?
It is commonly researched in metabolic regulation, mitochondrial signaling, cellular resilience, and longevity-associated models.
What type of compound is MOTS-C?
MOTS-C is classified as a mitochondrial-derived research peptide.
How should MOTS-C be stored?
Lyophilized peptide aliquots are generally stored refrigerated according to laboratory handling protocols.
