SEMAX 11mg
$42.99
- Semax 11mg synthetic neuroactive peptide for laboratory research.
- Studied in vitro for neurotrophic signaling, BDNF pathway research, neurotransmitter regulation, and neural signaling mechanisms.
- Unit Size: 11mg (lyophilized powder, single vial)
- Molecular Weight: ~854.99 g/mol
- CAS Number: 80714-61-0
- Form: Lyophilized peptide powder
- Use: For in vitro laboratory research only
In stock
Description
Semax | 11mg | Synthetic Neuroactive Research Peptide
Description
Semax is a synthetic heptapeptide derived from a fragment of adrenocorticotropic hormone (ACTH). In laboratory environments, this compound is studied for its interactions with neuropeptide signaling pathways, neurotrophic activity, and central nervous system regulatory mechanisms.
The peptide sequence was engineered to maintain biological activity while improving stability under experimental conditions. Because of its relatively small peptide structure and defined sequence, Semax is frequently utilized in controlled laboratory models investigating neurochemical signaling, cognitive pathway activity, and neuroprotective cellular responses.
Researchers commonly examine Semax in experimental systems involving brain-derived neurotrophic factor (BDNF) signaling, neurotransmitter regulation, and gene expression pathways associated with neural plasticity and cellular stress responses.
This vial contains 11mg of lyophilized Semax peptide intended strictly for controlled in vitro laboratory research applications.
Specifications
- Compound: Semax
- Unit Size: 11mg (lyophilized powder, single vial)
- Amino Acid Sequence: Met-Glu-His-Phe-Pro-Gly-Pro
- Molecular Formula: C39H54N10O10S
- Molecular Weight: ~854.99 g/mol
- CAS Number: 80714-61-0
- Form: Lyophilized peptide powder
- Solubility: Soluble in sterile or bacteriostatic water according to laboratory protocol
- Storage (lyophilized): Store in a cool, dry environment protected from light
- Storage (reconstituted): Refrigerate between 2–8°C according to laboratory procedures
Research Applications
Neurotrophic Signaling Research
Semax is frequently studied in laboratory models examining neurotrophic signaling pathways, including regulation of brain-derived neurotrophic factor (BDNF) and neuronal plasticity mechanisms.
Neurotransmitter Regulation Studies
Researchers investigate Semax in experimental systems exploring serotonergic and other neurotransmitter signaling pathways associated with central nervous system regulation.
Cognitive Pathway Research
Laboratory experiments may utilize Semax to examine signaling networks involved in memory formation, learning pathways, and neural information processing.
Neuroprotective Mechanism Research
Experimental models may investigate Semax in studies evaluating cellular stress responses, oxidative signaling pathways, and neuronal survival mechanisms.
Gene Expression and Cellular Signaling Studies
Researchers also study Semax in genomic and transcriptional experiments examining peptide influence on immune signaling pathways and vascular regulatory mechanisms.
Intended Use
Intended strictly for in vitro laboratory research use.
Legal Disclaimer
This product has not been evaluated by the U.S. Food and Drug Administration. No claims are made regarding the treatment, diagnosis, cure, or prevention of any disease. All information provided is intended strictly for scientific and educational purposes only.
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