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Amphidinolides F and C2: An Odyssey in Total Synthesis

Laurent Ferrié, Ismaïla Ciss, Johan Fenneteau, Sara Vallerotto, Matar Seck, Bruno Figadère

2022The Journal of Organic Chemistry13 citationsDOIOpen Access PDF

Abstract

Amphidinolides F, C, C2, and C3 are marine natural products isolated from dinoflagellates Amphidinium species. They share the same macrolactone core, with the difference between them residing at the side chain level. A predominant feature of these amphidinolides is the presence of two trans-THF rings inside the macrolactone core, which is thought to be built by C-glycosylation with titanium enolate of N-acetyl oxazolinethiones. Thus, the original strategy for their total synthesis was based on the assembly of three main fragments corresponding to C1–C9, C10–C19, and C20–C29 or C20–C34 disconnections. Whereas synthesis of all fragments was successful, the C-glycosylation reaction between C19 and C20 turned out to be an issue. Therefore, a second route was designed. The new disconnection between C17 and C18 was based on a sulfone addition and a desulfonylation sequence. Our convergent strategy allowed the total synthesis of amphidinolide F and enabled a new unifying route toward the synthesis of amphidinolides C, C2, and C3 using a late-stage divergent approach. Although there were unsatisfying yields at some critical steps, our work culminated into the first total synthesis of amphidinolide C2.

Topics & Concepts

Total synthesisChemistryGlycosylationStereochemistrySulfoneSequence (biology)Convergent synthesisOrganic chemistryBiochemistrySynthetic Organic Chemistry MethodsCarbohydrate Chemistry and SynthesisMarine Toxins and Detection Methods
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