MOTS-C 10MG

MOTS-C (Mitochondrial Uncoupling Protein-Inducing Small Cysteine-Rich Peptide) is a novel, synthetic peptide derived from the mitochondrial gene UCP3. This peptide is studied for its potential role in mitochondrial function, metabolic regulation, and cellular energy homeostasis within the research context.

Research Context

MOTS-C is a mitochondrial-derived peptide that has garnered interest in academic research due to its association with the regulation of metabolic pathways. Originally identified in the mitochondria of fish, its homologues have been studied across various species, including mammals. Research suggests that MOTS-C may influence processes such as oxidative phosphorylation, mitochondrial biogenesis, and energy expenditure. Due to its potential to modulate metabolic activity, MOTS-C has been explored as a tool for investigating mitochondrial dysfunction in various disease models.

Research Overview

MOTS-C is synthesized from the open-reading frame of the UCP3 gene, encoding a small peptide sequence that spans approximately 12 amino acids. Early studies in rodent models have highlighted its role in enhancing mitochondrial uncoupling, thereby promoting increased ATP production and energy efficiency. The peptide has been investigated in pre-clinical settings for its potential therapeutic implications in conditions associated with impaired mitochondrial function, such as obesity, type 2 diabetes, and neurodegenerative diseases. However, these findings remain within the confines of laboratory research and have not yet translated into clinical applications.

Key Research Focus Areas

• Mitochondrial Function: Investigation of MOTS-C’s role in enhancing oxidative phosphorylation and energy metabolism within mitochondria.
• Metabolic Regulation: Exploration of its effects on lipid metabolism, glucose homeostasis, and overall energy expenditure in animal models.
• Therapeutic Potential in Disease Models: Examination of potential applications in conditions characterized by mitochondrial dysfunction, including neurodegenerative disorders and metabolic syndromes.
• Cross-Species Conservation: Analysis of MOTS-C homologues across different species to assess evolutionary and functional conservation in mitochondrial biology.

Important Compliance & Safety Notice

This peptide is provided solely for research purposes and is not intended for human or animal consumption. The product has not been evaluated by regulatory authorities, and its safety and efficacy in any context outside of academic research have not been determined. Handling and administration should be conducted under the strict guidance of a qualified researcher or institution adhering to established laboratory protocols. Users are responsible for ensuring compliance with all applicable legal and ethical guidelines governing peptide research.

For research use only. Not for human or animal consumption.