
MOTS-c
Research Peptide | Lyophilized Powder | Batch Tested
For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.
Product Overview
MOTS-c is a 16-amino-acid mitochondrial-derived peptide (MDP) encoded within the mitochondrial genome rather than the nuclear DNA, and it is recognized as a regulator of metabolic homeostasis. It translocates to the nucleus under metabolic stress, where it influences the expression of adaptive metabolic genes, making it a prominent subject in mitochondrial-signaling and exercise-mimetic research.
| Test | Result | Status |
|---|---|---|
| Purity | 98.7% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 98.7% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.0% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 99.6% | Passed ✓ |
Research Information
MOTS-c is studied for its activation of the AMPK energy-sensing pathway and its role in glucose utilization, insulin sensitivity and the cellular response to metabolic and oxidative stress. Researchers investigate how it acts as a signal between mitochondria and the nucleus, and how its levels change with exercise and age in cell and rodent models. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.
MOTS-c Research & Studies
What is MOTS-c?
MOTS-c is a 16-amino-acid mitochondrial-derived peptide (MDP) encoded by a short open reading frame within the mitochondrial 12S rRNA gene rather than nuclear DNA. It is investigated as an endogenous regulator of metabolic homeostasis that can move between cellular compartments. Under conditions of metabolic stress, MOTS-c has been observed to translocate to the nucleus, where it participates in the regulation of adaptive gene expression programs. Laboratory work focuses on its role as a mitochondria-to-nucleus signaling molecule in cell-based and rodent model systems.
Mechanism of Action
Research indicates that MOTS-c engages the AMPK energy-sensing pathway, thereby influencing cellular glucose uptake and utilization pathways. Studies describe its capacity to modulate folate-cycle intermediates and related one-carbon metabolism under metabolic challenge. Nuclear translocation of MOTS-c under stress conditions allows interaction with transcription-factor networks that govern adaptive metabolic gene expression. These actions are examined primarily in cultured cells and controlled laboratory models of metabolic and oxidative stress.
Primary Areas of Research
Investigators study MOTS-c for its effects on glucose utilization, insulin-sensitivity signaling, and cellular responses to metabolic and oxidative stress. A major focus is its function as a bidirectional signal linking mitochondrial status to nuclear gene programs. Additional work examines how endogenous MOTS-c levels change with exercise stimuli and advancing age in cell and rodent models. The peptide is also used experimentally as a tool to probe exercise-mimetic and mitochondrial-communication pathways in vitro.
Key Research Findings
Published laboratory studies report that MOTS-c can activate AMPK-dependent pathways and alter expression of genes involved in metabolic adaptation when applied to cultured cells or administered in rodent models under controlled conditions. Work has documented nuclear accumulation of the peptide during metabolic stress and corresponding shifts in adaptive transcriptional responses. Changes in circulating or tissue MOTS-c abundance have been correlated with exercise and age-related metabolic parameters in experimental systems. These observations remain confined to non-clinical research settings.
Research Handling & Considerations
MOTS-c is supplied strictly for in-vitro and laboratory research use only and is not intended for human or animal consumption. Investigators should store lyophilized material according to standard peptide-handling protocols, typically at low temperature and protected from moisture and repeated freeze-thaw cycles. Reconstitution is performed with appropriate sterile solvents compatible with the planned cell-culture or biochemical assay. All experimental designs must comply with institutional biosafety and research-ethics guidelines governing mitochondrial peptides.
Frequently Asked Questions
MOTS-c is a 16-amino-acid mitochondrial-derived peptide encoded within the mitochondrial genome; it is studied as a regulator of metabolic gene expression and cellular energy sensing.
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