2x MOTS-c 20 mg Bundle
For in-vitro laboratory research use only. Not intended for human consumption, veterinary, diagnostic, or clinical use.
Description
This bundle brings together 2× MOTS-c 20 mg in a single research bundle, priced around 15% below buying each vial separately. Each peptide is supplied in its own individual vial, so reconstitution and handling stay fully independent per compound.
Every vial is lyophilized research-grade powder at ≥ 99% HPLC purity, with a Certificate of Analysis available on request.
For laboratory research use only. Not for human or veterinary use.
MOTS-c 20 mg
This 20 mg vial of MOTS-c is supplied as a higher-content format for high-throughput research applications. MOTS-c (also written mots c) is a mitochondria-derived peptide consisting of 16 amino acids and encoded directly by mitochondrial DNA. It is classified as a mitochondrial-encoded signaling peptide that links mitochondrial activity with nuclear gene regulation.
Through activation of AMP-activated protein kinase (AMPK) via the AICAR pathway, MOTS-c coordinates multiple metabolic pathways, including glucose utilization, lipid oxidation, and energy expenditure. Under conditions of metabolic stress, MOTS-c translocates from the mitochondria to the nucleus, where it modulates the expression of stress adaptation genes through antioxidant response elements (ARE). These effects contribute to improved metabolic flexibility, resistance to insulin dysfunction, and protection against energy-metabolism disturbances. The peptide also demonstrates antioxidant and inflammatory-pathway properties at the cellular level.
MOTS-c is actively investigated across several research domains, including insulin sensitivity and glucose homeostasis, age-related functional decline, exercise physiology and skeletal muscle metabolism, bone remodeling, and inflammatory response modulation. Published studies have demonstrated that MOTS-c administration in animal models attenuates diet-induced metabolic-adaptation shifts and supports [metabolic regulation research](/product/slu-pp-332) ([Lee et al., 2015, Cell Metabolism](https://pubmed.ncbi.nlm.nih.gov/25738459/)). Circulating levels of MOTS-c have been shown to decline with age, while exercise significantly upregulates its expression in skeletal muscle. See also: NAD⁺, SS-31 10 mg, Epitalon
Scientific Background
2x MOTS-c 20 mg Bundle combines 1 research compounds: MOTS-c 20 mg. Scientific background for each component is documented below.
MOTS-c 20 mg
For decades, mitochondria were viewed primarily as energy-producing organelles. Advances in genomics later revealed that the mitochondrial genome encodes bioactive peptides capable of regulating systemic physiology. MOTS-c was identified within the 12S rRNA region of mitochondrial DNA as one of the first peptides shown to function as a circulating metabolic signal.
Subsequent studies demonstrated that MOTS-c is expressed across multiple tissues and can translocate to the nucleus in response to metabolic or oxidative stress. Its levels decline with aging, while exercise and metabolic challenges are associated with increased expression, suggesting a role in adaptive signalling.
This positioning at the intersection of mitochondrial biology, metabolic regulation, and aging research has made MOTS-c a peptide of considerable interest in laboratory investigations of energy homeostasis and cellular stress adaptation.
Structure
2x MOTS-c 20 mg Bundle is supplied as a homogeneous lyophilized mixture. Structural details for each compound:
MOTS-c 20 mg
Mechanism of Action
Each compound in 2x MOTS-c 20 mg Bundle engages distinct biochemical targets. Mechanism of action per compound:
MOTS-c 20 mg
1. Activation of AMPK Signaling
MOTS-c promotes cellular energy balance by activating the AICAR-AMPK pathway. This activation enhances glucose uptake, suppresses excessive gluconeogenesis, and increases fatty acid oxidation. Through these mechanisms, MOTS-c supports stable glucose homeostasis and improves insulin responsiveness.
2. Regulation of Nuclear Gene Expression
Under stress conditions, MOTS-c can enter the nucleus and interact with transcription factors involved in metabolic and inflammatory regulation. By influencing gene networks linked to glucose transport, mitochondrial biogenesis, and immune modulation, it acts as a messenger coordinating mitochondrial and nuclear responses.
3. Mitochondrial Remodeling and Stress Resistance
MOTS-c modulates mitochondrial dynamics by promoting fusion processes and regulating biogenesis-associated proteins. These changes enhance mitochondrial efficiency while limiting oxidative damage. Concurrently, MOTS-c upregulates antioxidant defenses, reducing reactive oxygen species and protecting cellular integrity.
4. Musculoskeletal and Endothelial Modulation
MOTS-c influences muscle differentiation and bone remodeling by regulating osteoblast and osteoclast activity, while also improving vascular endothelial performance and reducing inflammatory signaling in cardiac tissue under metabolic stress models.
Research Applications
Conclusion
MOTS-c represents a unique class of mitochondria-encoded peptides that function as systemic metabolic regulators. By integrating mitochondrial signaling with nuclear gene control, MOTS-c supports energy homeostasis, stress resistance, and age-related metabolic adaptation. Its diverse biological actions make it a valuable research target in metabolism, aging, and mitochondrial biology.
References
Published references for each compound in 2x MOTS-c 20 mg Bundle, listed by component:
MOTS-c 20 mg
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