Description

🧬 MOTS-c

Mitochondrial-Derived Peptide for Metabolic & Energy Research

🧠 Overview

MOTS-c (Mitochondrial Open Reading Frame of the 12S rRNA-c) is a unique, mitochondrial-derived peptide that plays a role in cellular energy regulation and metabolic signaling.

Unlike traditional peptides, MOTS-c originates from mitochondrial DNA and functions as a cellular regulator of metabolism, glucose utilization, and energy balance.

It is widely studied in research environments for its involvement in metabolic adaptation, insulin sensitivity, and cellular stress responses, making it a key compound in next-generation metabolic research.

⚗️ Key Research Focus Areas

• Mitochondrial signaling pathways
• Glucose metabolism and insulin sensitivity
• Cellular energy regulation
• Exercise and performance research
• Metabolic adaptation under stress

🔬 Potential Benefits of MOTS-c (Research Observations)

⚡ 1. Enhanced Cellular Energy Regulation

Core mechanism of MOTS-c.

Observed in research:

• Improved energy utilization at the cellular level
• Enhanced metabolic flexibility
• Support for efficient ATP usage

🔥 2. Improved Insulin Sensitivity

One of the most studied effects of MOTS-c.

Research suggests:

• Increased glucose uptake in cells
• Improved insulin signaling pathways
• Better glucose handling in metabolic models

🧬 3. Activation of AMPK Pathways

MOTS-c interacts with key metabolic regulators.

Why it matters:

• AMPK is a central energy sensor in the body
• Promotes fat utilization and energy balance
• Supports metabolic efficiency

🩸 4. Glucose Metabolism Support

MOTS-c influences how the body processes glucose.

Observed:

• Improved glucose utilization
• Reduced metabolic stress in models
• Enhanced energy availability

💪 5. Exercise Performance & Endurance Research

MOTS-c is studied in performance-related models.

Potential effects:

• Increased endurance capacity
• Improved exercise efficiency
• Enhanced adaptation to physical stress

🔋 6. Mitochondrial Function Support

As a mitochondrial-derived peptide, MOTS-c directly impacts energy systems.

Includes:

• Improved mitochondrial signaling
• Enhanced energy production pathways
• Support for cellular efficiency

⚖️ 7. Fat Metabolism & Body Composition Research

MOTS-c may influence fat utilization.

Observed:

• Increased fat oxidation in models
• Improved metabolic balance
• Support for body composition changes

🧠 8. Cellular Stress Resistance

MOTS-c plays a role in stress adaptation.

Potential effects:

• Increased resilience to metabolic stress
• Improved cellular survival pathways
• Enhanced adaptation to environmental challenges

❤️ 9. Cardiometabolic Research Support

MOTS-c impacts broader metabolic systems.

Includes:

• Effects on lipid metabolism
• Support for cardiovascular-related pathways
• Improved metabolic efficiency

🧬 10. Longevity & Metabolic Health Research

MOTS-c is studied in aging-related models.

Why it stands out:

• Linked to metabolic health and aging pathways
• Supports long-term cellular function
• Enhances metabolic resilience

🔬 Product Specifications

• Compound Name: MOTS-c
• Class: Mitochondrial-Derived Peptide
• Purity: ≥99% (HPLC Verified)
• Appearance: Lyophilized white powder
• Form: Research-grade peptide

Available Sizes:

• 5mg
• 10mg
• 15mg

🧪 Quality & Testing

Each batch is independently verified through:

• High-performance liquid chromatography (HPLC)
• Mass spectrometry (MS) identity confirmation
• Peptide sequence validation
• Sterility and endotoxin testing
• Third-party COA verification

Manufactured in controlled, high-standard environments.

📦 Packaging & Storage

• Sterile sealed vial
• Tamper-evident packaging
• Full lot traceability

Storage Guidelines:

• Store at 2–8°C
• Protect from light and moisture
• Avoid repeated freeze-thaw cycles

🧬 Why Researchers Choose MOTS-c

✔ Mitochondrial-derived (unique origin vs traditional peptides)
✔ Strong focus on metabolic regulation
✔ Activates key energy pathways (AMPK)
✔ Studied in performance and longevity models
✔ Broad systemic metabolic impact

🔗 Popular Research Pairings

Enhance metabolic and energy research with:

• SS-31 → mitochondrial function support
• Retatrutide → advanced metabolic signaling
• Semaglutide → appetite and glucose regulation
• NAD+ / NMN → cellular energy pathways

🧾 Certificate of Analysis

Each vial includes access to a verified COA, featuring:

• Purity analysis
• Analytical testing methods
• Lot tracking
• Independent lab validation

(Accessible via QR code or upon request)

⚠️ Important Notice

• For research use only
• Not for human consumption
• Not intended to diagnose, treat, cure, or prevent any disease

CLICK HERE TO Contact us with any questions!

NENMASS@GMAIL.COM

508-809-3469