1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine

1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine

POPC, or 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine, is a key member of the semi-synthetic lipid family, representing a significant component in the study of biological membranes. Derived from the combination of palmitic and oleic acids with glycerol and choline, POPC's distinctive composition endows it with properties that make it an essential tool for investigations into membrane structure, dynamics, and interactions.

  • Dual Acyl Chain Composition: Synthesized from the esterification of palmitic and oleic acids with glycerol, POPC exhibits a dual acyl chain structure, combining saturated and unsaturated fatty acids.

  • Glycerol and Choline Backbone: The glycerol backbone of POPC is esterified with palmitic and oleic acids, and the headgroup features choline, rendering it amphiphilic in nature.

  • Biophysical Versatility: The blend of saturated and unsaturated acyl chains contributes to the biophysical versatility of POPC, allowing it to exist in different phases and configurations.

Applications in Membrane Research:

  • Mimicking Natural Lipid Bilayers: The amphiphilic nature of POPC enables it to closely mimic the structure of natural lipid bilayers, making it a widely employed model for studying membrane dynamics and lipid-protein interactions.

  • Biophysical and Structural Studies: POPC is extensively used in biophysical and structural studies, serving as a representative model lipid to investigate the physical properties of membranes, including fluidity, phase behavior, and lipid-protein interactions.

  • Drug Delivery Systems: Given its biocompatibility, POPC finds applications in drug delivery systems, forming the basis for liposomal formulations used in pharmaceutical research.

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