MOTS-c 40MG – Research Peptide – For Laboratory Use Only

High-Purity Mitochondrial-Derived Peptide for Advanced Metabolic Research

MOTS-c (40MG) is a research-grade mitochondrial-derived peptide (MDP) extensively studied for its involvement in cellular energy regulation, mitochondrial signaling, and metabolic adaptation pathways. Encoded within mitochondrial DNA, MOTS-c serves as an important signaling molecule in bioenergetic and metabolic research models.

Its unique role in mitochondrial-to-nuclear communication has made MOTS-c a significant focus in studies examining cellular resilience, energy homeostasis, and metabolic stress response

Product Details

Compound: MOTS-c
Quantity: 40mg per vial
Purity: ≥98%
Form: Lyophilized Powder
Grade: Research Grade
Storage: Store at -20°C. After reconstitution, refrigerate at 2–8°C and follow established laboratory protocols.

Research Focus Areas

MOTS-c is commonly studied in:

• Mitochondrial signaling and communication pathways
• Cellular energy production and regulation
• Metabolic adaptation and nutrient-sensing mechanisms
• AMPK-related signaling pathway investigations
• Bioenergetics and mitochondrial efficiency research
• Oxidative stress and cellular resilience studies
• Longevity and healthy aging research models

Potential Research Applications

Researchers may utilize MOTS-c in studies involving:

• Cellular metabolism and energy balance models
• Mitochondrial function and stress-response research
• Metabolic pathway regulation investigations
• Nutrient utilization and signaling studies
• Bioenergetic performance analysis
• Aging and cellular adaptation research

Key Features

✔ High-purity mitochondrial-derived peptide (≥98%)
✔ Widely studied in metabolic and mitochondrial research
✔ Lyophilized for enhanced stability and laboratory handling
✔ Suitable for bioenergetics and signaling pathway investigations
✔ Quality-controlled manufacturing for research consistency

Scientific Significance

MOTS-c is recognized as a key mitochondrial-derived signaling peptide involved in cellular metabolism and energy regulation. Its role in mitochondrial communication and adaptive metabolic pathways makes it a valuable research tool for studies focused on bioenergetics, stress adaptation, and cellular longevity.

Research Use Disclaimer

For laboratory research use only. Not for human consumption. Not intended for medical, therapeutic, veterinary, or diagnostic use. This product is supplied exclusively for scientific research purposes.