DAMME: A Stable Synthetic Analog of Methionine Enkephalin
Explore the potent biological activity and key properties of this opioid receptor modulator.
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Methionine Enkephalin Analog 64854-64-4
DAMME stands as a stable synthetic analog of methionine enkephalin, offering remarkable therapeutic potential and acting similarly to its natural counterpart. Its ability to be reversed by narcotic antagonists such as naloxone highlights its specific interaction with opioid receptors, making it a valuable compound for scientific research and development.
- Discover the unique properties of DAMME, a stable synthetic analog of methionine enkephalin, crucial for understanding opioid receptor mechanisms.
- Investigate the biological actions of DAMME, which are similar to those of methionine enkephalin, providing insights into peptide-based therapeutics.
- Understand the reversibility of DAMME by narcotic antagonists like naloxone, a key characteristic for safe application in research.
- Learn about the high purity of DAMME, with an assay of ≥98.0%, ensuring reliable results in scientific studies and development pipelines.
Advantages Offered
Enhanced Stability
As a stable synthetic analog of methionine enkephalin, DAMME offers improved shelf-life and consistency in research applications, ensuring reliable outcomes when exploring CAS 64854-64-4 chemical properties.
Targeted Receptor Interaction
DAMME's actions are similar to methionine enkephalin, allowing for precise investigations into opioid receptor modulation, a vital area for pain management and neurological research.
Reversible Action Profile
The reversibility by naloxone makes DAMME a safer compound for experimental use, providing control and predictability when studying its effects, especially relevant for the methionine enkephalin analog reversibility naloxone interaction.
Key Applications
Pharmaceutical Research
Explore the potential of DAMME, a high-purity chemical compound with an assay of ≥98.0%, in developing new therapeutic agents for various medical conditions.
Opioid Receptor Studies
Utilize DAMME as a research tool to delve deeper into the complex mechanisms of opioid receptors and their signaling pathways.
Peptide Analog Development
Investigate DAMME as a model for creating novel peptide analogs with tailored pharmacological profiles and improved stability.
Neuroscience Research
Employ DAMME to understand the role of endogenous opioid peptides in neurological processes and to develop treatments for related disorders.