MOTS-c 10mg
Research compound

MOTS-c 10mg

Price
60,00 CHF

MOTS-c 10 mg research-grade lyophilized peptide powder in a glass vial. Mitochondria-derived peptide studied in metabolic regulation, AMPK signaling, mitochondrial function and cellular stress models.

Third party tested
High purity and quality
Research use only
Research use only: this product is intended exclusively for laboratory, analytical or collector purposes. It is not intended for human or veterinary use, food use, dietary supplementation, cosmetic use or as a medicine.

MOTS-c 10 mg research-grade lyophilized peptide powder in a glass vial. Mitochondria-derived peptide studied in metabolic regulation, AMPK signaling, mitochondrial function and cellular stress models.

Research Use Only: All products are intended exclusively for laboratory and scientific research. Not for human or veterinary use.
Purity
99%+ (99.8% purity, HPLC, third-party tested)
Form
Lyophilized peptide powder
Content
10 mg MOTS-c per vial
Packaging
Glass vial with sterile closure
Storage
Store lyophilized at −20 °C (desiccated, protected from light)
Molecular Formula
C101H152N28O22S2
Molecular Weight
≈ 2174.6 g·mol⁻¹
Sequence
MRWQEMGYIFYPRKLR
CAS Number
1627580-64-6
Solvent for reconstitution (research use): Lyophilized peptide powders are typically reconstituted with a suitable solvent such as bacteriostatic water (BAC). For a compatible research-only solvent, see Bacteriostatic water - 10 ml.

Research Overview

MOTS-c is a 16-amino-acid mitochondria-derived peptide encoded by the mitochondrial genome. In experimental models it is used to probe metabolic regulation, AMPK-related signaling, mitochondrial function and cellular stress responses.

Primary Research Areas

  • Metabolic regulation & AMPK: models examining glucose uptake, insulin sensitivity and AMPK-dependent pathways.
  • Mitochondrial function & bioenergetics: studies focused on mitochondrial health, biogenesis and cellular energy homeostasis.
  • Cellular stress & oxidative balance: experiments on oxidative stress, cytoprotection and stress-response signaling.
  • Exercise-mimetic & aging research: preclinical work exploring exercise-like adaptations and age-related metabolic decline.
 
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