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MOTS-C 10mg
Energy Production • Endurance Support • Metabolic Efficiency
MOTS-C is a mitochondrial-derived peptide that has gained attention in metabolic and cellular energy research. Unlike many peptides that originate from nuclear DNA, MOTS-C is encoded within mitochondrial DNA and is involved in signaling pathways related to energy production and metabolic balance.
Because mitochondria are responsible for producing energy inside our cells, MOTS-C has become an important focus in research exploring metabolism, endurance, and how the body adapts to physical stress. Researchers are particularly interested in how this peptide may influence the way cells use energy, regulate glucose, and maintain metabolic efficiency.
Through its interaction with pathways such as AMPK activation, MOTS-C continues to be studied for its role in supporting cellular energy regulation, metabolic function, and the body’s ability to adapt to physical and metabolic demands.
Key Areas of Research Interest
Improves endurance and physical performance
Supports cellular resilience and adaptation to metabolic and physical stress
Supports healthy cellular energy production and mitochondrial efficiency
Assists in supporting metabolic balance and energy utilization within cells
Helps the body manage glucose metabolism and metabolic signaling pathways
Mechanism of Action
MOTS-C functions as a mitochondrial signaling peptide that helps communicate between mitochondria and the nucleus to regulate metabolic pathways. Research suggests it may activate AMPK (AMP-activated protein kinase), a key metabolic regulator involved in energy balance, glucose uptake, and cellular stress response.
Through these mechanisms, MOTS-C has been studied for its potential role in improving metabolic efficiency, supporting insulin sensitivity signaling, and helping cells utilize energy more effectively during periods of metabolic demand such as exercise or caloric restriction.
Because of its connection to mitochondrial signaling and metabolic regulation, MOTS-C has become an increasingly studied peptide in research focused on endurance adaptation, energy metabolism, and cellular longevity pathways.
Product Specifications
Compound Type: Mitochondrial-derived signaling peptide
Classification: Metabolic regulation research peptide
Molecular Formula: C₁₀₁H₁₅₂N₂₈O₂₂S₂
Molecular Weight: ~2174 g/mol
Administration Route: Subcutaneous injection in research settings
Stability Profile: Peptide requiring proper cold storage for stability
Development Status: Active research phase
Research Focus: Metabolic signaling, mitochondrial function, glucose metabolism, endurance research, and cellular energy pathways
Quality Commitment
SlimFit Compounds partners with emerging U.S.-based manufacturers that adhere to strict production, verification, and purity standards. These research-grade formulations are produced using protocols comparable to those employed by major pharmaceutical laboratories, enabling access to high-quality compounds without excessive cost barriers.
Research Use Disclaimer
This product is intended for research and laboratory use only.
Not for human consumption.
Not intended to diagnose treat cure or prevent any disease.
Information provided is for educational and research reference purposes only and has not been evaluated by the FDA. This compound should only be handled by qualified professionals in appropriate research or laboratory settings.
Energy Production • Endurance Support • Metabolic Efficiency
MOTS-C is a mitochondrial-derived peptide that has gained attention in metabolic and cellular energy research. Unlike many peptides that originate from nuclear DNA, MOTS-C is encoded within mitochondrial DNA and is involved in signaling pathways related to energy production and metabolic balance.
Because mitochondria are responsible for producing energy inside our cells, MOTS-C has become an important focus in research exploring metabolism, endurance, and how the body adapts to physical stress. Researchers are particularly interested in how this peptide may influence the way cells use energy, regulate glucose, and maintain metabolic efficiency.
Through its interaction with pathways such as AMPK activation, MOTS-C continues to be studied for its role in supporting cellular energy regulation, metabolic function, and the body’s ability to adapt to physical and metabolic demands.
Key Areas of Research Interest
Improves endurance and physical performance
Supports cellular resilience and adaptation to metabolic and physical stress
Supports healthy cellular energy production and mitochondrial efficiency
Assists in supporting metabolic balance and energy utilization within cells
Helps the body manage glucose metabolism and metabolic signaling pathways
Mechanism of Action
MOTS-C functions as a mitochondrial signaling peptide that helps communicate between mitochondria and the nucleus to regulate metabolic pathways. Research suggests it may activate AMPK (AMP-activated protein kinase), a key metabolic regulator involved in energy balance, glucose uptake, and cellular stress response.
Through these mechanisms, MOTS-C has been studied for its potential role in improving metabolic efficiency, supporting insulin sensitivity signaling, and helping cells utilize energy more effectively during periods of metabolic demand such as exercise or caloric restriction.
Because of its connection to mitochondrial signaling and metabolic regulation, MOTS-C has become an increasingly studied peptide in research focused on endurance adaptation, energy metabolism, and cellular longevity pathways.
Product Specifications
Compound Type: Mitochondrial-derived signaling peptide
Classification: Metabolic regulation research peptide
Molecular Formula: C₁₀₁H₁₅₂N₂₈O₂₂S₂
Molecular Weight: ~2174 g/mol
Administration Route: Subcutaneous injection in research settings
Stability Profile: Peptide requiring proper cold storage for stability
Development Status: Active research phase
Research Focus: Metabolic signaling, mitochondrial function, glucose metabolism, endurance research, and cellular energy pathways
Quality Commitment
SlimFit Compounds partners with emerging U.S.-based manufacturers that adhere to strict production, verification, and purity standards. These research-grade formulations are produced using protocols comparable to those employed by major pharmaceutical laboratories, enabling access to high-quality compounds without excessive cost barriers.
Research Use Disclaimer
This product is intended for research and laboratory use only.
Not for human consumption.
Not intended to diagnose treat cure or prevent any disease.
Information provided is for educational and research reference purposes only and has not been evaluated by the FDA. This compound should only be handled by qualified professionals in appropriate research or laboratory settings.