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Abstract
The first total synthesis of heavily oxidized cassane-type diterpenoid neocaesalpin A (1) is dis-closed. At the heart of the synthesis lies an intermolecular Diels–Alder reaction that rapidly assem-bles the target framework from commercial materials. A carefully orchestrated sequence of oxida-tions secured the desired oxygenation pattern. Late-stage release of the characteristic butenolide occurred through a novel mercury(II)-mediated furan oxidation. Successful extension of the route allowed preparation of neocaesalpin AA (2) as well as nominal neocaesalpin K (3) and suggested structural revision of neocaesalpin K, leading to the hypothesis that the two are likely the same natural product with correct assignment as 2.
