Discover the Science Behind Phosphoethanolamine Derivatives
Explore the detailed properties and uses of key biochemical compounds, including endogenous metabolites.
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Dihexadecanoyl-sn-glycero-3-phosphoethanolamine
Delve into the essential characteristics of this significant compound. As a vital endogenous metabolite, understanding its chemical structure and properties is key for advanced research in lipidomics and biochemistry. Its distinct molecular formula, C37H74NO8P, and molecular weight of 691.97 underscore its complex nature.
- Explore the 1,2-dihexadecanoyl-sn-glycero-3-phosphoethanolamine properties for detailed scientific applications.
- Discover the diverse CAS 923-61-5 applications in metabolic pathway research and beyond.
- Learn about the significance of this phosphoethanolamine metabolite in biological systems.
- Examine the detailed glycerophospholipid chemical structure to understand its role in cell membranes.
Key Advantages and Features
High Purity White Powder
This material is presented as a fine white powder chemical compound, ensuring ease of handling and precise formulation in research settings.
Defined Melting Point Range
With a melting point between 195.0 to 199.0 °C, this compound offers reliable physical characteristics for consistent experimental outcomes.
Significant Molecular Weight
The considerable molecular weight of 691.97 for this endogenous metabolite is crucial for mass spectrometry identification and quantitative analysis.
Key Applications
Biochemical Research
Utilized as a critical component in biochemical assays and studies focusing on lipid metabolism and cell signaling pathways.
Lipidomics Studies
An essential tool for researchers in lipidomics, enabling the investigation of phospholipid structures and functions within biological samples.
Metabolic Pathway Analysis
Serves as a marker or research subject in studies concerning endogenous metabolites and their roles in various metabolic pathways.
Chemical Synthesis & Analysis
Valuable for chemists and analysts in developing and validating synthetic routes and analytical methods for complex lipids.