Selective Transformation of 1,3‐Cyclooctadiene into Novel Functionalized Azaheterocycles,
β‐Amino Esters, and Lactams by Means of Ring‐Rearrangement Metathesis
Diversity‐oriented synthesis of some novel functionalized azaheterocyclic β‐amino
esters with multiple chiral centers from 1,3‐cyclooctadiene‐based β‐amino acids through
a stereocontrolled synthetic route has been accomplished. The strategy was based on
the creation of some novel unsaturated N‐protected cyclic β‐amino esters from 1,3‐cyclooctadiene.
Products were subjected to ring‐opening metathesis (ROM) followed by selective ring‐closing
metathesis (RCM). A comparative investigation on the selectivity, regarding the catalysts,
yields, conversions, and substrate directing effect on ring‐rearrangement metathesis
(RRM) transformation has been accomplished. Importantly, the procedure used in this
synthetic process does not affect the configuration of the chiral centers. The pathway
takes place across conservation of the configurations of the stereocenters; therefore,
the architectural skeleton of the starting cyclooctene‐based β‐amino acids predetermined
the structure of the new azaheterocyclic systems.