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Cationic Cascade for Building Complex Polycyclic Molecules from Simple Precursors: Diastereoselective Installation of Three Contiguous Stereogenic Centers in a One-Pot Process.

Georgios AlachouzosAlison J Frontier
Published in: Journal of the American Chemical Society (2018)
An expedient strategy for the synthesis of polycyclic small molecules is described. The method first joins together two achiral building blocks (an enyne and an aldehyde or a ketone) using an alkynyl halo-Prins protocol. Then, in the same reaction vessel, acidic conditions initiate a cationic cascade that includes a stereospecific halo-Nazarov electrocyclization and a diastereoselective Friedel-Crafts allylation. The entire sequence forms three carbon-carbon bonds and a carbon-halogen bond, generating halocyclopentene adducts in one pot from simple precursors. The process occurs with excellent diastereocontrol, providing highly functionalized polycycles containing three tertiary or quaternary stereogenic centers in a linear array. It is even possible to install three contiguous all-carbon quaternary centers using this method.
Keyphrases
  • randomized controlled trial
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  • single cell
  • molecularly imprinted
  • tandem mass spectrometry