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Catalog Number:
10838
CAS Number:
61370-88-5
Des-Tyr1-Met-Enkephalin
Synonym(s):
H-Gly-Gly-Phe-Met-OH
Documents
$99.90 /5MG
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Product Information

(Des-Tyr1)-Met-Enkephalin is a potent endogenous opioid peptide that plays a crucial role in pain modulation and neuroprotection. This compound is a derivative of Met-Enkephalin, distinguished by the absence of the tyrosine residue at the first position, which enhances its binding affinity to opioid receptors. Its unique structure allows it to effectively mimic the body's natural pain-relieving mechanisms, making it a valuable candidate for research in pain management therapies.

In the pharmaceutical industry, (Des-Tyr1)-Met-Enkephalin is being explored for its potential applications in developing analgesics and treatments for various neurological disorders. Researchers are particularly interested in its ability to cross the blood-brain barrier, which could lead to innovative approaches in treating chronic pain and addiction. Additionally, its favorable safety profile and low toxicity make it an attractive option for further studies in drug development. This compound's relevance in both academic research and clinical applications underscores its significance in advancing therapeutic strategies.

Synonyms
H-Gly-Gly-Phe-Met-OH
CAS Number
61370-88-5
Molecular Formula
C18H26N4O5S
Molecular Weight
410.46
MDL Number
MFCD00076427
PubChem ID
14598600
Conditions
Store at -0°C.
General Information
Synonyms
H-Gly-Gly-Phe-Met-OH
CAS Number
61370-88-5
Molecular Formula
C18H26N4O5S
Molecular Weight
410.46
MDL Number
MFCD00076427
PubChem ID
14598600
Conditions
Store at -0°C.
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
No
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

(Des-Tyr1)-Met-Enkephalin is widely utilized in research focused on

  • Pain Management Research: This compound is studied for its potential to modulate pain pathways, making it a key focus in developing new analgesics that can provide relief with fewer side effects compared to traditional opioids.
  • Neuropharmacology: Researchers explore its effects on the central nervous system, particularly in understanding how it interacts with opioid receptors, which can lead to advancements in treating addiction and depression.
  • Peptide Synthesis: It serves as a model compound in the synthesis of other bioactive peptides, aiding in the development of new therapeutic agents in pharmaceuticals.
  • Behavioral Studies: This compound is used in animal models to study the behavioral effects of enkephalins, contributing to our understanding of stress, anxiety, and other psychological conditions.
  • Drug Development: Its unique properties make it a candidate for creating targeted drug delivery systems, enhancing the efficacy of treatments while minimizing side effects.

Citations