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Synthesis of a plasmenylethanolamine.

Satoshi MaedaTomoyo MohriTsubasa InoueYoshio AsanoYurika OtokiMasaru EnomotoKiyotaka NakagawaShigefumi KuwaharaYusuke Ogura
Published in: Bioscience, biotechnology, and biochemistry (2021)
A concise synthesis of a plasmenylethanolamine (PlsEtn-[16:0/18:1 n-9]), known as antioxidative phospholipids commonly found in cell membranes, has been achieved from an optically active known diol through 8 steps. The key transformations for the synthesis of PlsEtn-[16:0/18:1 n-9] are (1) regio- and Z-selective vinyl ether formation via the alkylation of a lithioalkoxy allyl intermediate with an alkyl iodide, and (2) a one-pot phosphite esterification-oxidation sequence to construct the ethanolamine phosphonate moiety in the presence of the vinyl ether functionality. The piperidine salt of synthetic PlsEtn-[16:0/18:1 n-9] was desalinated through reversed-phase high-performance liquid chromatography purification.
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