Abstract
Natural product total synthesis inspires the development of synthesis strategies to access important classes of molecules. In the 1960s, Corey and coworkers demonstrated a visionary preparation of the terpenoid longifolene, using 'strategic bond analysis' to craft a synthesis route. This approach proposes that efficient synthesis routes to bridged, polycyclic structures should be formulated to introduce the bulk of the target's topological complexity at a late stage. Subsequently, similar strategies have proved general for the syntheses of a wide variety of bridged, polycyclic molecules. Here, we demonstrate that an orthogonal strategy where topological complexity is introduced at the outset leads to the short synthesis of the longifolene-related terpenoid longiborneol. To implement this strategy, we access a bicyclo[2.2.1] starting material through scaffold remodelling of readily available (S)-carvone. We also employ a variety of late-stage C-H functionalization tactics in divergent syntheses of many longiborneol congeners. Our strategy may prove effective for the preparation of other topologically complex natural products that contain the bicyclo[2.2.1] framework.
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