SEPARATIONS OF MOLECULAR-SPECIES OF PHOSPHATIDIC-ACID BY HIGH-PERFORMANCE LIQUID-CHROMATOGRAPHY

Molecular species of phosphatidic acid (PA) were separated by reversed -phase high-performance liquid chromatography with mobile phases of ac etonitrile-methanol-water containing quaternary ammonium phosphates (Q APs). Effective resolution of PA complexes was achieved by using low-m ass QAPs at concentrations greater than or equal to 50 mM or high-mass QAPs at concentrations greater than or equal to 10 mM. Capacity facto r (k') values were found to be dramatically influenced by the type and concentration of QAP, stationary phase specifications, and mobile pha se solvent compositions. An increase in the acetonitrile-methanol rati o of the mobile phase tended to enhance the retention and separation o f the polar lipid components. Correlation of logarithmic k' values wit h the total number of carbon atoms in QAP appeared to yield non-linear relationships. Compositions of major molecular species in various PA samples were determined by calibration with synthetic PA standards. Di stribution patterns of PA molecular species in samples derived from an imal and plant sources were compared.