Stearoyl Ethanolamide: A Versatile Compound for Diagnostic Reagents and Biochemical Research
Discover the chemical properties and diverse applications of Stearoyl Ethanolamide (CAS 111-57-9).
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Stearoyl Ethanolamide
Stearoyl Ethanolamide, identified by CAS 111-57-9, is a significant fatty acid ethanolamide with widespread utility in biochemical research and as a component in diagnostic reagents. Its chemical structure, N-(2-hydroxyethyl)octadecanamide, contributes to its unique properties and applications.
- Explore the detailed properties of Stearoyl Ethanolamide CAS 111-57-9 for your research needs. This compound is crucial for studies involving the endocannabinoid system.
- Understand the biochemical applications of fatty acid ethanolamides like Stearoyl Ethanolamide. Its role in cell membrane phospholipid hydrolysis is a key area of study.
- Investigate N-(2-hydroxyethyl)octadecanamide research possibilities. The compound is recognized for its potential anti-inflammatory effects and membrane-protective capabilities.
- Source high-quality diagnostic reagent ingredients. Stearoyl Ethanolamide serves as a valuable component in the development of diagnostic tools.
Key Advantages of Stearoyl Ethanolamide
Research Versatility
Stearoyl Ethanolamide's diverse applications span various research fields, from neuroscience to cellular studies, making it a valuable asset for scientists investigating complex biological pathways.
Diagnostic Utility
As a key ingredient in diagnostic reagents, it aids in the accurate and reliable development of medical testing solutions, supporting advancements in healthcare.
Biochemical Significance
Its function as a prolific fatty acid ethanolamide produced by cell membrane phospholipid hydrolysis highlights its importance in understanding cellular mechanisms and signaling pathways.
Key Applications
Diagnostic Reagent Development
Stearoyl Ethanolamide is integral to creating precise diagnostic reagents, supporting accurate disease detection and monitoring.
Biochemical Research
Its role in studying endocannabinoid signaling and cell membrane functions makes it a critical compound for biochemical investigations.
Neuroscience Studies
Researchers utilize Stearoyl Ethanolamide to explore neuromodulation and the effects of anandamide-related compounds.
Cellular Physiology
Understanding its impact on cell membrane phospholipids provides insights into cellular health and responses to stimuli.