
SS-31
Research Peptide | Lyophilized Powder | Batch Tested
For laboratory research use only. Not for human or animal consumption. Insulated shipping · Styrofoam box available.
Product Overview
SS-31 (elamipretide) is a mitochondria-targeting tetrapeptide that concentrates on the inner mitochondrial membrane, where it binds the phospholipid cardiolipin. Because cardiolipin is essential to the organization of the electron-transport chain, SS-31 is one of the most studied tool compounds for probing mitochondrial structure and bioenergetics.
| Test | Result | Status |
|---|---|---|
| Purity | 98.9% | Passed ✓ |
| Test | Result | Status |
|---|---|---|
| Purity | 98.5% | Passed ✓ |
Research Information
SS-31 is used to study stabilization of cardiolipin, preservation of cristae architecture and the efficiency of electron transport under oxidative stress. Research focuses on mitochondrial ATP output, reactive-oxygen-species handling and cellular energy resilience in models of mitochondrial dysfunction, aging and ischemic injury. Supplied strictly for in-vitro and laboratory research use only — not for human or animal consumption.
SS-31 Research & Studies
What is SS-31?
SS-31, also designated elamipretide, is a synthetic mitochondria-targeting tetrapeptide employed as a research tool for examining inner-membrane organization and bioenergetics. It selectively concentrates at the inner mitochondrial membrane through affinity for the phospholipid cardiolipin. Investigators use SS-31 to probe structural and functional aspects of mitochondria in controlled laboratory systems. The compound is supplied exclusively for in-vitro and experimental research applications.
Mechanism of Action
Research centers on SS-31 binding to cardiolipin, a phospholipid essential for assembling electron-transport-chain supercomplexes and maintaining cristae architecture. This interaction is studied for its capacity to influence membrane curvature and the spatial arrangement of respiratory complexes under oxidative challenge. Experimental work examines how the peptide association may support electron-transfer efficiency and limit peroxidation of cardiolipin itself. These mechanistic investigations are conducted in isolated mitochondria and cultured-cell preparations.
Primary Areas of Research
SS-31 is applied in laboratory models of mitochondrial dysfunction, oxidative stress, aging-related bioenergetic decline, and ischemic injury. Studies focus on parameters such as ATP generation capacity, reactive-oxygen-species handling, and overall cellular energy resilience. Researchers employ the peptide to evaluate preservation of cristae morphology and electron-transport efficiency when mitochondria are subjected to controlled stressors. All work remains confined to in-vitro systems and non-clinical experimental platforms.
Key Research Findings
Published laboratory investigations document that SS-31 associates with cardiolipin and is observed to support maintenance of cristae structure in stressed mitochondrial preparations. Experimental readouts frequently include oxygen-consumption rates, ATP synthesis measurements, and markers of membrane integrity. Findings consistently position the peptide as a useful probe for cardiolipin-dependent bioenergetic processes. These observations derive solely from model systems and do not extend beyond research contexts.
Research Handling & Considerations
SS-31 is intended strictly for in-vitro and laboratory research use and is not for human or animal consumption. Standard peptide-handling practices apply, including appropriate storage conditions and reconstitution in compatible aqueous buffers for mitochondrial assays. Investigators should verify solubility and stability under the specific experimental conditions employed. All applications remain limited to investigative studies of mitochondrial structure and function.
Frequently Asked Questions
SS-31 is studied for its binding to cardiolipin and its utility in probing mitochondrial membrane organization, electron-transport efficiency, and bioenergetic responses under oxidative stress in experimental models.
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