Total Synthesis of Ganoapplanin Enabled by a Radical Addition/Aldol Reaction Cascade

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Abstract

The total synthesis of the Ganoderma meroterpenoid ganoapplanin, an inhibitor of T-type voltage-gated calcium channels, is reported. Our synthetic approach is based on the convergent coupling of a readily available aromatic polyketide scaffold with a bicyclic terpenoid fragment. The three contiguous stereocenters of the terpenoid fragment, two of which are quaternary, were constructed by a diastereoselective, titanium-mediated iodolactonization. For the fusion of the two fragments and to simultaneously install the crucial biaryl bond, we devised a highly effective two-component coupling strategy. This event involves an intramolecular 6-exo-trig radical addition of a quinone monoacetal followed by an intermolecular aldol reaction. A strategic late-stage oxidation sequence allowed the selective installation of the remaining oxygen functionalities and the introduction of the characteristic spiro bisacetal structure of ganoapplanin.

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Müller, N., Kováč, O., Rode, A., Atzl, D., & Magauer, T. (2024). Total Synthesis of Ganoapplanin Enabled by a Radical Addition/Aldol Reaction Cascade. Journal of the American Chemical Society, 146(33), 22937–22942. https://doi.org/10.1021/jacs.4c08291

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