SEMAX 10 mg
$49.99
Semax is a synthetic neuropeptide derived from a fragment of adrenocorticotropic hormone (ACTH) studied in laboratory environments for its interactions with neurological signaling pathways and peptide-mediated communication systems.
• 10 mg lyophilized research peptide
• Purity ≥99% (HPLC)
• ACTH-derived synthetic peptide fragment
• Intended for laboratory research use only – not for human or veterinary consumption
This item: SEMAX 10 mg
$49.99
$49.99
SEMAX 10 mg
Product Overview
Research Context
Semax is a synthetic peptide derived from a fragment of adrenocorticotropic hormone (ACTH). In laboratory environments, peptides derived from larger signaling molecules are often studied to understand how smaller peptide fragments interact with complex neurological and regulatory communication pathways.
Researchers frequently examine Semax in experimental models exploring peptide-mediated signaling within neurological systems, molecular communication pathways, and regulatory mechanisms involved in cellular signaling networks. Because neuroactive peptides can influence multiple signaling pathways, compounds like Semax provide a useful model for studying how peptide messengers interact with complex biological systems.
Laboratory investigations involving Semax commonly focus on areas such as:
• Peptide-mediated neurological signaling pathways
• Molecular communication within central nervous system models
• Regulatory signaling mechanisms involving neuropeptides
• Cellular communication influenced by peptide messengers
• Synthetic peptide fragment stability and signaling behavior
Due to its classification as a neuropeptide analog, Semax continues to be of interest to researchers studying how peptide signaling molecules participate in neurological communication and regulatory signaling processes.
This material is supplied strictly for controlled laboratory research applications and should be handled only by qualified professionals in appropriate research environments.
Research Highlights
Semax has been examined in experimental models investigating peptide-mediated neurological communication and regulatory signaling pathways. Research interest often focuses on how small peptide fragments interact with complex neurological signaling networks.
Key areas of laboratory investigation have included:
• Neuropeptide signaling pathways – studies examining how peptide fragments interact with neurological communication systems.
• Central nervous system regulatory mechanisms – research exploring how peptide messengers influence cellular communication within neurological models.
• Peptide-mediated signaling networks – investigations into how short peptide fragments participate in complex biological signaling systems.
• Neurochemical communication pathways – laboratory studies evaluating how peptide molecules interact with neurotransmitter signaling networks.
• Synthetic peptide stability research – experimental work examining how modified peptide fragments maintain structural stability and signaling activity in laboratory environments.
Scientific Research Information
Peptides and research compounds supplied by Superior Chains Research Labs are intended strictly for laboratory and analytical research applications. Many compounds offered within this catalog are studied in experimental environments investigating molecular signaling pathways, receptor interactions, cellular communication mechanisms, and biochemical regulatory systems.
Researchers frequently utilize synthetic peptides and laboratory compounds when examining:
• peptide–receptor signaling pathways
• intracellular communication mechanisms
• metabolic and regulatory signaling networks
• enzyme activity and biochemical pathway interactions
• cellular stability and molecular signaling systems
Because peptide molecules function as biological messengers within complex cellular systems, they remain an important focus of modern biochemical and molecular research. Laboratory-grade peptides allow researchers to study how these signaling molecules interact with receptor systems and participate in regulatory communication pathways.
All products distributed by Superior Chains Research Labs are supplied exclusively for controlled laboratory research purposes and must be handled by qualified professionals within appropriate research environments.
SEMAX is a synthetic research peptide supplied for laboratory use only.
This product is intended for qualified researchers and controlled laboratory settings.
It is not approved for human or veterinary use, medical applications, or diagnostic purposes.
Specifications
| Product Name | SEMAX |
| Chemical Name / Sequence | MEHFPGP |
| CAS Number | 80714-61-0 |
| Molecular Formula | C37H51N9O10S |
| Molecular Weight | 813.93 Â g/mol |
| Purity | ≥ 99% (HPLC) |
| Form | Lyophilized powder |
| Quantity | 10 mg |
Storage & Stability
- Recommended storage: -20°C / -4°F protected from light and moisture.
- Short-term storage after reconstitution: 2–8°C / 35-46°F for up to 8 weeks.
- Avoid repeated freeze–thaw cycles.
- Do not freeze after reconstitution.
Refer to the Certificate of Analysis (COA) for lot-specific stability and handling guidance.
Documentation
Handling & Safety
- Use appropriate personal protective equipment (PPE) when handling.
- Handle in a controlled laboratory environment.
- Dispose of unused material in accordance with local regulations and institutional protocols.
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