posted on 1996-04-19, 00:00authored byEugene A. Mash, Timothy M. Gregg, Matthew T. Stahl, W. Patrick Walters
Conformations of cyclopropyl methyl ketone have been
studied using abinitio methods in an
effort
to quantify the effects of conjugative overlap between the cyclopropane
ring and an adjacent ketone
carbonyl. Results were comparable with previous experimental and
theoretical studies. Cyclopropyl
methyl ketone exhibits a global energy minimum in the s-cis conformer
and a local energy minimum
near the s-trans conformer. The potential energy curve obtained
was used to derive torsion
parameters which were employed in molecular mechanics studies of the
conformations of the set
of bicyclo[m.1.0]alkan-2-ones having larger ring
sizes from five- to 16-membered. Similar
conformations for the cyclopropyl ketone substructure are observed for
all the medium and large
ring systems examined. Possible synthetic ramifications of local
conformational anchoring by this
functional group array are discussed.