Product Description: Semax
Introduction:
Semax is a synthetic peptide with a structure derived from the naturally occurring adrenocorticotropic hormone (ACTH). It has been studied for its potential properties related to cognitive function, neuroprotection, and stress response. Semax has gained attention in the scientific community for its unique peptide sequence and its potential role in modulating brain activity and the central nervous system. It is typically used in laboratory research settings to explore its effects on neural processes and neurochemical regulation.
What is Semax?
Semax is a synthetic peptide consisting of a fragment of the ACTH hormone. It is often studied for its potential neuroactive properties and its interactions with various receptors in the brain. Semax does not contain the full ACTH peptide but retains a portion of its sequence, making it distinct from the natural hormone. Semax has been investigated in preclinical research to explore its potential effects on cognitive function, learning, and memory, as well as its potential neuroprotective properties in response to stress or injury.
Potential Different Names:
- Semax
- ACTH (Adrenocorticotropic Hormone) derivative
- N-Acetyl Semax Amidate
- Semax Peptide
- ACTH(4-10) analogue
- Neuroprotective peptide (descriptive term)
Chemical Formula:
The chemical formula of Semax is C42H58N12O10S. This molecular structure reflects the peptide's amino acid sequence and its modified sequence designed for specific interactions with receptors in the brain. Semax is a peptide with a relatively small structure compared to other complex hormones and is designed to be stable and active in various neurobiological environments.
Structure:
Semax is a synthetic peptide composed of a sequence of nine amino acids. It is derived from the ACTH peptide, specifically from the ACTH(4-10) segment. The structure includes modifications that enhance its stability, enabling it to have prolonged activity within the brain. Semax is typically synthesized with an N-terminal acetyl group and a C-terminal amidate group to increase its bioavailability and resistance to enzymatic degradation. This modified structure makes it more effective in reaching its target receptors in the central nervous system.
How Does It Work?
Semax works by interacting with various receptors in the central nervous system, although the exact mechanisms of action are not fully understood. It is believed to exert its effects primarily through modulation of neuropeptides and neurotrophic factors, which can influence cognitive processes and brain plasticity. Semax has been studied for its ability to affect the release of certain neurotransmitters, including dopamine and serotonin, which are involved in mood regulation and cognitive functions.
Research suggests that Semax may influence the expression of brain-derived neurotrophic factor (BDNF), a protein involved in neural growth and plasticity. Additionally, Semax has been found to have a potential role in modulating the stress response, which could make it useful in the context of cognitive stress or damage due to injury. Due to its structural modifications, Semax is designed to be more stable and bioavailable than naturally occurring peptides, enabling it to have prolonged activity within the body, particularly in the brain.
Conclusion:
Semax is a synthetic peptide derived from a segment of the adrenocorticotropic hormone (ACTH), primarily used in scientific research to study its effects on cognitive function and neuroprotection. Its modified structure enhances its stability and bioavailability, making it an appealing tool for research into brain function, neurotransmitter regulation, and neural plasticity. While Semax is still being studied for its potential applications, it has attracted interest for its possible effects on brain activity and response to stress.
Disclaimer:
This product description is intended for informational purposes only and is directed towards scientific research. Semax is not for human consumption and should be handled only by trained professionals in a laboratory setting. This peptide should only be used for research purposes and is not approved for clinical or medical use. Always adhere to safety protocols and comply with relevant regulations when handling peptides or any research materials.