Programmed Polyene Cyclization Enabled by Chromophore Disruption

23 February 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

A versatile polyene cyclization strategy was developed that exploits conjugated -ionyl derivatives. Photomediated disruption of the extended -system within these chromophores unveils a contra-thermodynamic polyene that engages in a Heck-type cyclization to afford [4.4.1]-propellanes. The connectivity of overbred polycycles generated from this process is controlled by the position of the requisite C–Br bond. Thus, compared to conventional biomimetic polyene cyclization, this approach allows for complete control of regiochemistry and facilitates incorporation of both electron-rich and electron-deficient (hetero)aryl groups. This strategy was successfully applied to the total synthesis of taxodione and salviasperanol, two isomeric abietane-type diterpenes that previously could not be prepared along the same synthetic pathway.

Keywords

Photochemistry
terpenes
total synthesis

Supplementary materials

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