MOTS-C
MOTS-C image 1MOTS-C image 2
Next-Generation Peptide for Metabolic and Mitochondrial SupportStandardReport Available

MOTS-C

Research overview

<p> MOTS-C is a mitochondrial-derived peptide commonly researched for its role in cellular energy regulation, metabolic efficiency, endurance pathways, and mitochondrial function support. </p> <p> Research investigations involving MOTS-C have explored AMPK activation pathways associated with glucose metabolism, fat utilisation, exercise performance, insulin sensitivity, and metabolic flexibility under controlled laboratory conditions. </p> <p> MOTS-C research is frequently associated with mitochondrial health, cellular energy production, recovery optimisation, body composition support, and longevity-focused metabolic studies. </p> <p> This Vital Edge Science research batch features ultra-pure MOTS-C with 99.3%+ Janoshik-verified purity and Australia/New Zealand fulfilment support. </p> <p> Recommended for reconstitution using bacteriostatic water within a pH range of 5.7 to 7.0. </p> <p> Acetic Acid may be required to assist long-term vial stability and preservation during research storage conditions. </p> <p> Each vial contains 40mg of high-purity lyophilised MOTS-C intended strictly for laboratory and analytical research applications. </p> <p> <strong>For research use only.</strong> </p>

Purity99.334%
Format40mg
Ships FromAustralia & New Zealand
MOQ1 vial

Available variants

40MG × 1$112.00In Stock
40MG × 10$765.00In Stock

Product description

Product Overview

MOTS-C is supplied by Vital Edge Science for mitochondrial, metabolic and longevity research applications. This batch features Janoshik verified purity, Australia and New Zealand fulfilment, and high-purity lyophilised peptide material suitable for laboratory research environments.

Available Formats

  • 40mg × 1 vial
  • 40mg × 10 vials
  • MOQ: 1 vial
  • Australia / New Zealand fulfilment

Batch Verification

  • Purity: 99.334%
  • Tested: 08 DEC 2025
  • Task Number: #91588
  • Verification Key: 17RRF3XFXUZM

Research Applications

  • Mitochondrial function research
  • Cellular energy pathway studies
  • Metabolic flexibility investigations
  • AMPK signalling research
  • Longevity and endurance pathway analysis

Verification report

Report typeJanoshik / COA
Task number#91588
Unique ID17RRF3XFXUZM
Tested08 DEC 2025
Open reportMOTS-C COA